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tnmahmoo
Fluorite | Level 6

There is nothing to resolve here, I am just sharing the info below in the only place I know in which this code package has been mentioned before. 

 

Below is the Dietary Screener Questionnaire SAS code for the 2010 questionnaire version-self admin paper form. 

If you are having trouble with this code package, I suggest copying and pasting my version below. You still need to download the package online to get the supplementary excel files and the codebook. 

 

I hope this helps!

 

/*

DSQ Self-Administered Questionnaire: Paper 

SAS program to process self-administered paper questionnaire  

*/



 

filename SBMDdata "C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file package\SBMDdata.csv";
proc import datafile ="C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file package\SBMDdata.csv"
dbms=CSV
out=SBMDdata
replace;
Getnames=YES;
run;

proc import datafile ='C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file package\DSQcereal.xlsx'
dbms=xlsx
out=cereal
replace;
Getnames=YES;
run;

proc import datafile ="C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file package\DSQportions.xlsx"
dbms=xlsx
out=portions
replace;
Getnames=YES;
run;

proc import datafile ="C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file package\DSQeqcoeff.xlsx"
dbms=xlsx
out=coeff
replace;
Getnames=YES;
run;

/*

  The following files are contained within the archive that 

  contained this analysis program.  Once extracted from the archive, 

  these files should be located in the same folder/directory as 

  the analysis program.

*/  



 libname cereal xlsx "C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file package\DSQcereal.xlsx";
libname portions xlsx "C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file packageDSQportions.xlsx";
libname coeff xlsx "C:\Users\tnmah\Desktop\Whisner Lab\SBMD\Statistical analyses\SAS\SAS file package\DSQeqcoeff.xlsx";






proc format;  

  value gender 1='male'

               2='female';



run;



data dtq;

  set SBMDdata;



/*this program uses variables names:

    DSQ_xx1

    DSQ_xx2

    DSQ_010, DSQ_030, etc



 ***PLEASE NOTE SPECIAL CEREAL RECODING IS REQUIRED BEFORE RUNNING THIS CODE****



 DSQ_020 and DSQ_xx3 MUST be converted to an 8 digit foodcode by the user



 The current variables (DSQ_020 and DSQ_xx3) are character variables that represent

 assorted cereals.  Using the 'calib.DSQ.cereal.ntile.xlsx' file, the user

 must create new variables, which will be called:



   food_code_1 and

   food_code_2



 and contain an eight digit FNDDS foodcode which represents the particular cereal

 that was reported.  If only one cereal is reported,  food_code_2 should remain blank.



*/



/*in this data step, create variables: 

  Required names include: ageinyr (age in years) gender (1=male 2=female)  

  and the food ffq - each food has two variables, times and units 

*/



  ageinyr=DSQ_xx1;

  if DSQ_xx2='A' then gender=1;			

    else if DSQ_xx2='B' then gender=2;



  cereal1fc=food_code_1;

  cereal2fc=food_code_2;



/*create numcer to represent the number of cereals provided;

*/



  if cereal1fc=. and cereal2fc=. then numcer=0;

    else if cereal1fc > 0 and cereal2fc > 0 then numcer=2;

    else if cereal1fc > 0 then numcer=1;
run;




/*converting responses into times per day for food variables of interest;

*/

 

 %macro foodrange (in,out,maxv);
data dtq;

  set dtq;

 if &in='A' then &out=0;

   else if &in='B' then &out=0.033;

   else if &in='C' then &out=0.083;

   else if &in='D' then &out=0.143;

   else if &in='E' then &out=0.286;

   else if &in='F' then &out=0.5;

   else if &in='G' then &out=0.786;

   else if &in='H' then &out=1;

   else if &in='I' then &out=2;

    *top code outliers;

   if &out > &maxv then &out=&maxv;    
run;
%mend foodrange;



%macro bevrange (in,out,maxv);
data dtq;

  set dtq;
 if &in='A' then &out=0;

   else if &in='B' then &out=0.033;

   else if &in='C' then &out=0.083;

   else if &in='D' then &out=0.143;

   else if &in='E' then &out=0.286;

   else if &in='F' then &out=0.5;

   else if &in='G' then &out=0.786;

   else if &in='H' then &out=1;

   else if &in='I' then &out=2.5;

   else if &in='J' then &out=4.5;

   else if &in='K' then &out=6;

    *top code outliers;

   if &out > &maxv then &out=&maxv;  
run;
%mend bevrange;

  %foodrange(dsq_010,hccerxpd,7);

  %bevrange(dsq_030,milkxpd,10);

  %bevrange(dsq_040,sodaxpd,8);

  %bevrange(dsq_050,frtjcxpd,8);

  %bevrange(dsq_060,swtctxpd,10);

  %bevrange(dsq_070,energyxpd,7);

  %foodrange(dsq_080,fruitxpd,8);

  %foodrange(dsq_090,saladxpd,5);

  %foodrange(dsq_100,frfryxpd,5);

  %foodrange(dsq_110,othpotxpd,3);

  %foodrange(dsq_120,beanxpd,4);

  %foodrange(dsq_130,othvegxpd,5);

  %foodrange(dsq_140,pizzaxpd,2);

  %foodrange(dsq_150,salsaxpd,3);

  %foodrange(dsq_160,tomscxpd,2);

  %foodrange(dsq_190,cheesexpd,6);

  %foodrange(dsq_200,whgbrdxpd,6);

  %foodrange(dsq_210,brricexpd,4);

  %foodrange(dsq_220,candyxpd,8);

  %foodrange(dsq_230,donutxpd,5);

  %foodrange(dsq_240,cakexpd,7);

  %foodrange(dsq_250,icecrmxpd,5);

  %foodrange(dsq_260,popcornxpd,3);


data dtq;
set dtq;
  label hccerxpd='number of times per day eat hot or cold cereal'
        milkxpd='number of times per day drink milk'
	sodaxpd='number of times per day drink soda'
	frtjcxpd='number of times per day drink fruit juice'
	swtctxpd='number of times per day drink sweet coffee/tea'
	energyxpd='number of times per day drink fruit/sports/energy drink'
	fruitxpd='number of times per day eat fruit'
	saladxpd='number of times per day eat salad'
	frfryxpd='number of times per day eat fried potatoes'
	othpotxpd='number of times per day eat other potatoes'
	beanxpd='number of times per day eat beans'
	othvegxpd='number of times per day eat other vegetables'
	pizzaxpd='number of times per day eat pizza'
	salsaxpd='number of times per day eat salsa'
	tomscxpd='number of times per day eat tomtato sauce'
	cheesexpd='number of times per day eat cheese'
	whgbrdxpd='number of times per day eat whole grain bread'
	brricexpd='number of times per day eat cooked whole grain (brown rice)'
	candyxpd='number of times per day eat candy'
	donutxpd='number of times per day eat pastries'
	cakexpd='number of times per day eat cookies/cake'
	icecrmxpd='number of times per day eat ice cream'
	popcornxpd='number of times per day eat pop corn';
	run;
data dtq;set dtq;
   if (2 <= ageinyr <= 3) then bcage=1;
    else if (4 <= ageinyr <= 5) then bcage=2;
    else if (6 <= ageinyr <= 7) then bcage=3;
    else if (8 <= ageinyr <= 9) then bcage=4;
    else if (10 <= ageinyr <= 11) then bcage=5;
    else if (12 <= ageinyr <= 13) then bcage=6;
    else if (14 <= ageinyr <= 15) then bcage=7;
    else if (16 <= ageinyr <= 17) then bcage=8;
    else if (18 <= ageinyr <= 25) then bcage=9;
    else if (26 <= ageinyr <= 35) then bcage=10;
    else if (36 <= ageinyr <= 45) then bcage=11;
    else if (46 <= ageinyr <= 60) then bcage=12;
    else if (61 <= ageinyr <= 69) then bcage=13;
    else if (70 <= ageinyr <= 99) then bcage=14;

    *make age dummy variables ****;

    if (2 <= ageinyr <= 11) then kidgrp=1;
      else kidgrp=0;
    if (12 <= ageinyr <= 17) then teengrp=1;
      else teengrp=0;

run;

proc sort data=cereal;
  by food_code;
run;

data cereal (keep=cereal1fc cereal2fc whgnt sugnt calcnt fibnt);
  set cereal;
  by food_code;
  if first.food_code;
  cereal1fc=food_code;
  cereal2fc=food_code;
run;
  
proc sort data=dtq;
  by cereal1fc;
run;

proc sort data=cereal;
  by cereal1fc;
run;

data dtq (drop= whgnt sugnt calcnt fibnt);
  merge dtq (in=d) cereal (drop=cereal2fc);
  by cereal1fc;
  if d;

  c1whgnt=whgnt;
  c1sugnt=sugnt;
  c1calcnt=calcnt;
  c1fibnt=fibnt;
run;

proc sort data=dtq;
  by cereal2fc;
run;

proc sort data=cereal;
  by cereal2fc;
run;

data dtq (drop= whgnt sugnt calcnt fibnt);
  merge dtq (in=d) cereal (drop=cereal1fc);
  by cereal2fc;
  if d;

  c2whgnt=whgnt;
  c2sugnt=sugnt;
  c2calcnt=calcnt;
  c2fibnt=fibnt;
run;

data dtq;
  set dtq;

  if numcer in (0,1,2) and hccerxpd >= 0 then do;
   wg1f=0; wg2f=0; wg3f=0; 
   as1f=0; as2f=0; as3f=0;
   cm1f=0; cm2f=0; cm3f=0; 
   fb1f=0; fb2f=0; fb3f=0;
  if numcer=1 then do;
    if c1whgnt=1 then wg1f=wg1f+hccerxpd;
      else if c1whgnt=2 then wg2f=wg2f+hccerxpd;
      else if c1whgnt=3 then wg3f=wg3f+hccerxpd;
    if c1sugnt=1 then as1f=as1f+hccerxpd;
      else if c1sugnt=2 then as2f=as2f+hccerxpd;
      else if c1sugnt=3 then as3f=as3f+hccerxpd;
    if c1calcnt=1 then cm1f=cm1f+hccerxpd;
      else if c1calcnt=2 then cm2f=cm2f+hccerxpd;
      else if c1calcnt=3 then cm3f=cm3f+hccerxpd;
    if c1fibnt=1 then fb1f=fb1f+hccerxpd;
      else if c1fibnt=2 then fb2f=fb2f+hccerxpd;
      else if c1fibnt=3 then fb3f=fb3f+hccerxpd;;
   end;
   else if numcer=2 then do;
    if c1whgnt=1 then wg1f=wg1f+(.75*hccerxpd);
      else if c1whgnt=2 then wg2f=wg2f+(.75*hccerxpd);
      else if c1whgnt=3 then wg3f=wg3f+(.75*hccerxpd);
    if c2whgnt=1 then wg1f=wg1f+(.25*hccerxpd);
      else if c2whgnt=2 then wg2f=wg2f+(.25*hccerxpd);
      else if c2whgnt=3 then wg3f=wg3f+(.25*hccerxpd);
    if c1sugnt=1 then as1f=as1f+(.75*hccerxpd);
      else if c1sugnt=2 then as2f=as2f+(.75*hccerxpd);
      else if c1sugnt=3 then as3f=as3f+(.75*hccerxpd);
    if c2sugnt=1 then as1f=as1f+(.25*hccerxpd);
      else if c2sugnt=2 then as2f=as2f+(.25*hccerxpd);
      else if c2sugnt=3 then as3f=as3f+(.25*hccerxpd);
    if c1calcnt=1 then cm1f=cm1f+(.75*hccerxpd);
      else if c1calcnt=2 then cm2f=cm2f+(.75*hccerxpd);
      else if c1calcnt=3 then cm3f=cm3f+(.75*hccerxpd);
    if c2calcnt=1 then cm1f=cm1f+(.25*hccerxpd);
      else if c2calcnt=2 then cm2f=cm2f+(.25*hccerxpd);
      else if c2calcnt=3 then cm3f=cm3f+(.25*hccerxpd);
    if c1fibnt=1 then fb1f=fb1f+(.75*hccerxpd);
      else if c1fibnt=2 then fb2f=fb2f+(.75*hccerxpd);
      else if c1fibnt=3 then fb3f=fb3f+(.75*hccerxpd);
    if c2fibnt=1 then fb1f=fb1f+(.25*hccerxpd);
      else if c2fibnt=2 then fb2f=fb2f+(.25*hccerxpd);
      else if c2fibnt=3 then fb3f=fb3f+(.25*hccerxpd);
    end;
   end;
run;

proc sort data=dtq;
  by gender bcage;
run;

*this pulls in the portion size adjustment information by gender and agegrp;
data adjps;
  set portions;
  bcage=agegrp;
run;
	 

proc sort data=adjps;
  by gender bcage;
run;

*merge analysis data with portion size adjustment data;
data dtq;
  merge dtq (in=d) adjps;
  by gender bcage;
  if d;
run;

data dtq;
  set dtq;
  by gender;

 *make psize adj freq vars;
  gfb1f=fb1f*gadj25;
  gfb2f=fb2f*gadj26;
  gfb3f=fb3f*gadj27;
  gmilk=milkxpd*gadj3;
  gsoda=sodaxpd*gadj4;
  gfrtjc=frtjcxpd*gadj5;
  gswtct=swtctxpd*gadj6;
  genergy=energyxpd*gadj7;
  gfruit=fruitxpd*gadj8;
  gsalad=saladxpd*gadj9;
  gfrfry=frfryxpd*gadj10;
  gothpot=othpotxpd*gadj11;
  gbean=beanxpd*gadj12;
  gothveg=othvegxpd*gadj13;
  gpizza=pizzaxpd*gadj14;
  gsalsa=salsaxpd*gadj15;
  gtomsc=tomscxpd*gadj16;
  gcheese=cheesexpd*gadj17;
  gwhgbrd=whgbrdxpd*gadj18;
  gbrrice=brricexpd*gadj19;
  gcandy=candyxpd*gadj20;
  gdonut=donutxpd*gadj21;
  gcake=cakexpd*gadj22;
  gicecrm=icecrmxpd*gadj23;
  gpopcorn=popcornxpd*gadj24;

  *calcium;
  gcm1f=cm1f*gadj28;
  gcm2f=cm2f*gadj29;
  gcm3f=cm3f*gadj30;

  *for whole grain;
  gwg1f=wg1f*gadj34;
  gwg2f=wg2f*gadj35;
  gwg3f=wg3f*gadj36;

  *for dairy;
  dmilk=milkxpd*dadj3;
  dcheese=cheesexpd*dadj17;
  dpizza=pizzaxpd*dadj14;
  dicecrm=icecrmxpd*dadj23;


  *for sugar/ssb;
  sas1f=as1f*sadj31;
  sas2f=as2f*sadj32;
  sas3f=as3f*sadj33;
  sicecrm=icecrmxpd*sadj23;
  scake=cakexpd*sadj22;
  ssoda=sodaxpd*sadj4;
  sswtct=swtctxpd*sadj6;
  senergy=energyxpd*sadj7;
  scandy=candyxpd*sadj20;
  sdonut=donutxpd*sadj21;


  *for fruit;
  ffrtjc=frtjcxpd*fadj5;
  ffruit=fruitxpd*fadj8;


  *for veg;
  vsalad=saladxpd*vadj9;
  vfrfry=frfryxpd*vadj10;
  vothpot=othpotxpd*vadj11;
  vbean=beanxpd*vadj12;
  vothveg=othvegxpd*vadj13;
  vpizza=pizzaxpd*vadj14;
  vsalsa=salsaxpd*vadj15;
  vtomsc=tomscxpd*vadj16;

  *for tot frt/veg;
  pfrtjc=frtjcxpd*padj5;
  pfruit=fruitxpd*padj8;
  psalad=saladxpd*padj9;
  pfrfry=frfryxpd*padj10;
  pothpot=othpotxpd*padj11;
  pbean=beanxpd*padj12;
  pothveg=othvegxpd*padj13;
  ppizza=pizzaxpd*padj14;
  psalsa=salsaxpd*padj15;
  ptomsc=tomscxpd*padj16;


run;


*this pulls in the intercept and beta coefficient information by gender;

data betaint;
  set coeff;
run;

proc sort data=betaint;
  by gender;
run;

*merge analysis data with intercept and beta coefficient data;
data mdtq;
  merge dtq (in=d) betaint;
  by gender;
  if d;
run;

*create predicted variables;
data mdtq;
  set mdtq;
  by gender;

  DSQfib=mfintercept +  (kidgrp*mfkidb) + (teengrp*mfteenb)  + (gfb1f*mfcer1b) + (gfb2f*mfcer2b) + (gfb3f*mfcer3b) + (gwhgbrd*mfwgbb) + (gbrrice*mfbrricb) + 
     (gcheese*mfcheesb) +  (gpizza*mfpizzab) +  (gmilk*mfmilkb) +  (gicecrm*mficecrb) +  (gpopcorn*mfpcornb) + 
     (gsoda*mfsodab) +  (genergy*mfspdrb) +  (gcake*mfcakeb) +  (gdonut*mfdonutb) +  (gswtct*mfswctb) +  (gcandy*mfcandyb) + 
     (gfrtjc*mffjcb) +  (gfruit*mffruitb)  +  (gsalad*mfsaladb) + (gothpot*mfothptb) +  (gbean*mfbeanb) +
     (gothveg*mfothvgb) +  (gfrfry*mffrfrb) +  (gtomsc*mftomscb) +  (gsalsa*mfsalsab) ;

  DSQcalc=mcintercept +  (kidgrp*mckidb) + (teengrp*mcteenb)  + (gcm1f*mccer1b) + (gcm2f*mccer2b) + (gcm3f*mccer3b) + (gwhgbrd*mcwgbb) + (gbrrice*mcbrricb) + 
     (gcheese*mccheesb) +  (gpizza*mcpizzab) +  (gmilk*mcmilkb) +  (gicecrm*mcicecrb) +  (gpopcorn*mcpcornb) + 
     (gsoda*mcsodab) +  (genergy*mcspdrb) +  (gcake*mccakeb) +  (gdonut*mcdonutb) +  (gswtct*mcswctb) +  (gcandy*mccandyb) + 
     (gfrtjc*mcfjcb) +  (gfruit*mcfruitb)  +  (gsalad*mcsaladb) + (gothpot*mcothptb) +  (gbean*mcbeanb) +
     (gothveg*mcothvgb) +  (gfrfry*mcfrfrb) +  (gtomsc*mctomscb) +  (gsalsa*mcsalsab) ;

  DSQwhgr=mgintercept +  (kidgrp*mgkidb) + (teengrp*mgteenb)  + (gwg1f*mgcer1b) + (gwg2f*mgcer2b) + (gwg3f*mgcer3b) + (gwhgbrd*mgwgbb) + (gbrrice*mgbrricb) + 
      (gpopcorn*mgpcornb)  ;

  DSQsug=msintercept +  (kidgrp*mskidb) + (teengrp*msteenb)  + (sas1f*mscer1b) + (sas2f*mscer2b) + (sas3f*mscer3b) +  
     (sicecrm*msicecrb) +  (ssoda*mssodab) +  (senergy*msspdrb) +  (scake*mscakeb) +  (sdonut*msdonutb) +  (sswtct*msswctb) +  (scandy*mscandyb) ;

  DSQdairy=mdintercept +   (kidgrp*mdkidb) + (teengrp*mdteenb)  + (dcheese*mdcheesb) +  (dpizza*mdpizzab) +  (dmilk*mdmilkb) +  (dicecrm*mdicecrb)  ;

  DSQfvl=mpintercept +   (kidgrp*mpkidb) + (teengrp*mpteenb) +  
     (pfrtjc*mpfjcb) +  (pfruit*mpfruitb)  +  (psalad*mpsaladb) + (pothpot*mpothptb) +  (pbean*mpbeanb) +
     (pothveg*mpothvgb) +  (pfrfry*mpfrfrb) +  (ptomsc*mptomscb) +  (psalsa*mpsalsab) +  (ppizza*mppizzab) ;

  DSQvlall=mvintercept +   (kidgrp*mvkidb) + (teengrp*mvteenb) +  
     (vsalad*mvsaladb) + (vothpot*mvothptb) +  (vbean*mvbeanb) +  (vpizza*mvpizzab) +
     (vothveg*mvothvgb) +  (vfrfry*mvfrfrb) +  (vtomsc*mvtomscb) +  (vsalsa*mvsalsab) ;

  DSQfvlnf=mnintercept +   (kidgrp*mnkidb) + (teengrp*mnteenb) +  
     (pfrtjc*mnfjcb) +  (pfruit*mnfruitb)  +  (psalad*mnsaladb) + (pothpot*mnothptb) +  (pbean*mnbeanb) +
     (pothveg*mnothvgb) +  (ptomsc*mntomscb) +  (psalsa*mnsalsab) + (ppizza*mnpizzab) ;

  DSQvlnf=muintercept +   (kidgrp*mukidb) + (teengrp*muteenb) +  
     (vsalad*musaladb) + (vothpot*muothptb) +  (vbean*mubeanb) +  (vpizza*mupizzab) +
     (vothveg*muothvgb) +  (vtomsc*mutomscb) +  (vsalsa*musalsab) ;

  DSQfrt=mrintercept +   (kidgrp*mrkidb) + (teengrp*mrteenb)  + (ffrtjc*mrfjcb) +  (ffruit*mrfruitb)  ;

  DSQssb=mxintercept +  (kidgrp*mxkidb) + (teengrp*mxteenb) +  (ssoda*mxsodab) +  (senergy*mxspdrb) + (sswtct*mxswctb)  ;

label  DSQfvl = 'Predicted intake of fruits and vegetables including legumes and French fries (cup equivalents) per day'
 DSQfvlnf = 'Predicted intake of fruits and vegetables including legumes and excluding French fries (cup equivalents) per day'
 DSQfrt = 'Predicted intake of fruits (cup equivalents) per day'
 DSQvlall = 'Predicted intake of vegetables including legumes and French fries (cup equivalents) per day'
 DSQvlnf = 'Predicted intake of vegetables including legumes and excluding French fries (cup equivalents) per day'
 DSQdairy = 'Predicted intake of dairy (cup equivalents) per day'
 DSQsug = 'Predicted intake of total added sugars (tsp equivalents) per day' 
 DSQssb = 'Predicted intake of added sugars from sugar-sweetened beverages (tsp equivalents) per day'
 DSQwhgr = 'Predicted intake of whole grains (ounce equivalents) per day'
 DSQfib = 'Predicted intake of fiber (gm) per day'
 DSQcalc = 'Predicted intake of calcium (mg) per day';

  *set neg to zero;
  array mpred DSQfib--DSQssb;
  do over mpred;
    if mpred ne . and mpred < 0 then mpred=0;
  end;

  DSQfib_low=lfintercept +  (kidgrp*lfkidb) + (teengrp*lfteenb)  + (gfb1f*lfcer1b) + (gfb2f*lfcer2b) + (gfb3f*lfcer3b) + (gwhgbrd*lfwgbb) + (gbrrice*lfbrricb) + 
     (gcheese*lfcheesb) +  (gpizza*lfpizzab) +  (gmilk*lfmilkb) +  (gicecrm*lficecrb) +  (gpopcorn*lfpcornb) + 
     (gsoda*lfsodab) +  (genergy*lfspdrb) +  (gcake*lfcakeb) +  (gdonut*lfdonutb) +  (gswtct*lfswctb) +  (gcandy*lfcandyb) + 
     (gfrtjc*lffjcb) +  (gfruit*lffruitb)  +  (gsalad*lfsaladb) + (gothpot*lfothptb) +  (gbean*lfbeanb) +
     (gothveg*lfothvgb) +  (gfrfry*lffrfrb) +  (gtomsc*lftomscb) +  (gsalsa*lfsalsab) ;

  DSQcalc_low=lcintercept +  (kidgrp*lckidb) + (teengrp*lcteenb)  + (gcm1f*lccer1b) + (gcm2f*lccer2b) + (gcm3f*lccer3b) + (gwhgbrd*lcwgbb) + (gbrrice*lcbrricb) + 
     (gcheese*lccheesb) +  (gpizza*lcpizzab) +  (gmilk*lcmilkb) +  (gicecrm*lcicecrb) +  (gpopcorn*lcpcornb) + 
     (gsoda*lcsodab) +  (genergy*lcspdrb) +  (gcake*lccakeb) +  (gdonut*lcdonutb) +  (gswtct*lcswctb) +  (gcandy*lccandyb) + 
     (gfrtjc*lcfjcb) +  (gfruit*lcfruitb)  +  (gsalad*lcsaladb) + (gothpot*lcothptb) +  (gbean*lcbeanb) +
     (gothveg*lcothvgb) +  (gfrfry*lcfrfrb) +  (gtomsc*lctomscb) +  (gsalsa*lcsalsab) ;

  DSQwhgr_low=lgintercept +  (kidgrp*lgkidb) + (teengrp*lgteenb)  + (gwg1f*lgcer1b) + (gwg2f*lgcer2b) + (gwg3f*lgcer3b) + (gwhgbrd*lgwgbb) + (gbrrice*lgbrricb) + 
      (gpopcorn*lgpcornb)  ;

  DSQsug_low=lsintercept +  (kidgrp*lskidb) + (teengrp*lsteenb)  + (sas1f*lscer1b) + (sas2f*lscer2b) + (sas3f*lscer3b) +  
     (sicecrm*lsicecrb) +  (ssoda*lssodab) +  (senergy*lsspdrb) +  (scake*lscakeb) +  (sdonut*lsdonutb) +  (sswtct*lsswctb) +  (scandy*lscandyb) ;

  DSQdairy_low=ldintercept +   (kidgrp*ldkidb) + (teengrp*ldteenb)  + (dcheese*ldcheesb) +  (dpizza*ldpizzab) +  (dmilk*ldmilkb) +  (dicecrm*ldicecrb)  ;

  DSQfvl_low=lpintercept +   (kidgrp*lpkidb) + (teengrp*lpteenb) +  
     (pfrtjc*lpfjcb) +  (pfruit*lpfruitb)  +  (psalad*lpsaladb) + (pothpot*lpothptb) +  (pbean*lpbeanb) +
     (pothveg*lpothvgb) +  (pfrfry*lpfrfrb) +  (ptomsc*lptomscb) +  (psalsa*lpsalsab) +  (ppizza*lppizzab) ;

  DSQvlall_low=lvintercept +   (kidgrp*lvkidb) + (teengrp*lvteenb) +  
     (vsalad*lvsaladb) + (vothpot*lvothptb) +  (vbean*lvbeanb) +  (vpizza*lvpizzab) +
     (vothveg*lvothvgb) +  (vfrfry*lvfrfrb) +  (vtomsc*lvtomscb) +  (vsalsa*lvsalsab) ;

  DSQfvlnf_low=lnintercept +   (kidgrp*lnkidb) + (teengrp*lnteenb) +  
     (pfrtjc*lnfjcb) +  (pfruit*lnfruitb)  +  (psalad*lnsaladb) + (pothpot*lnothptb) +  (pbean*lnbeanb) +
     (pothveg*lnothvgb) +  (ptomsc*lntomscb) +  (psalsa*lnsalsab) + (ppizza*lnpizzab) ;

  DSQvlnf_low=luintercept +   (kidgrp*lukidb) + (teengrp*luteenb) +  
     (vsalad*lusaladb) + (vothpot*luothptb) +  (vbean*lubeanb) +  (vpizza*lupizzab) +
     (vothveg*luothvgb) +  (vtomsc*lutomscb) +  (vsalsa*lusalsab) ;

  DSQfrt_low=lrintercept +   (kidgrp*lrkidb) + (teengrp*lrteenb)  + (ffrtjc*lrfjcb) +  (ffruit*lrfruitb)  ;

  DSQssb_low=lxintercept +  (kidgrp*lxkidb) + (teengrp*lxteenb) +  (ssoda*lxsodab) +  (senergy*lxspdrb) + (sswtct*lxswctb)  ;

  label 
 DSQfvl_low ='Predicted probability of eating less than 1.7 cup equivalents of fruits and vegetables including legumes and French fries'
 DSQfvlnf_low ='Predicted probability of eating less than 1.7 cup equivalents fruits and vegetables including legumes and excluding French fries'
 DSQfrt_low ='Predicted probability of eating less than 0.5 cup equivalents of fruits'
 DSQvlall_low ='Predicted probability of eating less than 1.0 cup equivalents of vegetables including legumes and French fries'
 DSQvlnf_low ='Predicted probability of eating less than 1.0 cup equivalents vegetables including legumes and excluding French fries'
 DSQdairy_low ='Predicted probability of eating less than 1.2 cup equivalents of dairy'
 DSQsug_low ='Predicted probability of eating less than 11 tsp equivalents of total added sugars'
 DSQssb_low ='Predicted probability of eating less than 3 tsp equivalents added sugars from sugar-sweetened beverages'
 DSQwhgr_low ='Predicted probability of eating less than 0.3 ounce equivalents of whole grains' 
 DSQfib_low ='Predicted probability of eating less than 12 grams of fiber'
 DSQcalc_low ='Predicted probability of eating less than 800 milligrams of calcium';
  
  array lpred DSQfib_low--DSQssb_low;
  do over lpred;
    if lpred ne . then do;

  if lpred < -100 then 
    lpred = exp(-100)/(1+exp(-100));
   else if lpred > 100 then 
    lpred = exp(100)/(1+exp(100));
   else  lpred = exp(lpred)/(1+exp(lpred));
   end;
  end;


  DSQfib_high=ufintercept +  (kidgrp*ufkidb) + (teengrp*ufteenb)  + (gfb1f*ufcer1b) + (gfb2f*ufcer2b) + (gfb3f*ufcer3b) + (gwhgbrd*ufwgbb) + (gbrrice*ufbrricb) + 
     (gcheese*ufcheesb) +  (gpizza*ufpizzab) +  (gmilk*ufmilkb) +  (gicecrm*uficecrb) +  (gpopcorn*ufpcornb) + 
     (gsoda*ufsodab) +  (genergy*ufspdrb) +  (gcake*ufcakeb) +  (gdonut*ufdonutb) +  (gswtct*ufswctb) +  (gcandy*ufcandyb) + 
     (gfrtjc*uffjcb) +  (gfruit*uffruitb)  +  (gsalad*ufsaladb) + (gothpot*ufothptb) +  (gbean*ufbeanb) +
     (gothveg*ufothvgb) +  (gfrfry*uffrfrb) +  (gtomsc*uftomscb) +  (gsalsa*ufsalsab) ;

  DSQcalc_high=ucintercept +  (kidgrp*uckidb) + (teengrp*ucteenb)  + (gcm1f*uccer1b) + (gcm2f*uccer2b) + (gcm3f*uccer3b) + (gwhgbrd*ucwgbb) + (gbrrice*ucbrricb) + 
     (gcheese*uccheesb) +  (gpizza*ucpizzab) +  (gmilk*ucmilkb) +  (gicecrm*ucicecrb) +  (gpopcorn*ucpcornb) + 
     (gsoda*ucsodab) +  (genergy*ucspdrb) +  (gcake*uccakeb) +  (gdonut*ucdonutb) +  (gswtct*ucswctb) +  (gcandy*uccandyb) + 
     (gfrtjc*ucfjcb) +  (gfruit*ucfruitb)  +  (gsalad*ucsaladb) + (gothpot*ucothptb) +  (gbean*ucbeanb) +
     (gothveg*ucothvgb) +  (gfrfry*ucfrfrb) +  (gtomsc*uctomscb) +  (gsalsa*ucsalsab) ;

  DSQwhgr_high=ugintercept +  (kidgrp*ugkidb) + (teengrp*ugteenb)  + (gwg1f*ugcer1b) + (gwg2f*ugcer2b) + (gwg3f*ugcer3b) + (gwhgbrd*ugwgbb) + (gbrrice*ugbrricb) + 
      (gpopcorn*ugpcornb)  ;

  DSQsug_high=usintercept +  (kidgrp*uskidb) + (teengrp*usteenb)  + (sas1f*uscer1b) + (sas2f*uscer2b) + (sas3f*uscer3b) +  
     (sicecrm*usicecrb) +  (ssoda*ussodab) +  (senergy*usspdrb) +  (scake*uscakeb) +  (sdonut*usdonutb) +  (sswtct*usswctb) +  (scandy*uscandyb) ;

  DSQdairy_high=udintercept +   (kidgrp*udkidb) + (teengrp*udteenb)  + (dcheese*udcheesb) +  (dpizza*udpizzab) +  (dmilk*udmilkb) +  (dicecrm*udicecrb)  ;

  DSQfvl_high=upintercept +   (kidgrp*upkidb) + (teengrp*upteenb) +  
     (pfrtjc*upfjcb) +  (pfruit*upfruitb)  +  (psalad*upsaladb) + (pothpot*upothptb) +  (pbean*upbeanb) +
     (pothveg*upothvgb) +  (pfrfry*upfrfrb) +  (ptomsc*uptomscb) +  (psalsa*upsalsab) +  (ppizza*uppizzab) ;

  DSQvlall_high=uvintercept +   (kidgrp*uvkidb) + (teengrp*uvteenb) +  
     (vsalad*uvsaladb) + (vothpot*uvothptb) +  (vbean*uvbeanb) +  (vpizza*uvpizzab) +
     (vothveg*uvothvgb) +  (vfrfry*uvfrfrb) +  (vtomsc*uvtomscb) +  (vsalsa*uvsalsab) ;

  DSQfvlnf_high=unintercept +   (kidgrp*unkidb) + (teengrp*unteenb) +  
     (pfrtjc*unfjcb) +  (pfruit*unfruitb)  +  (psalad*unsaladb) + (pothpot*unothptb) +  (pbean*unbeanb) +
     (pothveg*unothvgb) +  (ptomsc*untomscb) +  (psalsa*unsalsab) + (ppizza*unpizzab) ;

  DSQvlnf_high=uuintercept +   (kidgrp*uukidb) + (teengrp*uuteenb) +  
     (vsalad*uusaladb) + (vothpot*uuothptb) +  (vbean*uubeanb) +  (vpizza*uupizzab) +
     (vothveg*uuothvgb) +  (vtomsc*uutomscb) +  (vsalsa*uusalsab) ;

  DSQfrt_high=urintercept +   (kidgrp*urkidb) + (teengrp*urteenb)  + (ffrtjc*urfjcb) +  (ffruit*urfruitb)  ;

  DSQssb_high=uxintercept +  (kidgrp*uxkidb) + (teengrp*uxteenb) +  (ssoda*uxsodab) +  (senergy*uxspdrb) + (sswtct*uxswctb)  ;

  label 
 DSQfvl_high ='Predicted probability of eating equal or more than 3.2 cup equivalents of fruits and vegetables including legumes and French fries'
 DSQfvlnf_high ='Predicted probability of eating equal or more than 3.2 cup equivalents fruits and vegetables including legumes and excluding French fries'
 DSQfrt_high ='Predicted probability of eating equal or more than 1.4 cup equivalents of fruits'
 DSQvlall_high ='Predicted probability of eating equal or more than 1.8 cup equivalents of vegetables including legumes and French fries'
 DSQvlnf_high ='Predicted probability of eating equal or more than 1.8 cup equivalents vegetables including legumes and excluding French fries'
 DSQdairy_high ='Predicted probability of eating equal or more than 2.4 cup equivalents of dairy'
 DSQsug_high ='Predicted probability of eating equal or more than 23 tsp equivalents of total added sugars'
 DSQssb_high ='Predicted probability of eating equal or more than 11 tsp equivalents added sugars from sugar-sweetened beverages'
 DSQwhgr_high ='Predicted probability of eating equal or more than 1.0 ounce equivalents of whole grains' 
 DSQfib_high ='Predicted probability of eating equal or more than 19 grams of fiber'
 DSQcalc_high ='Predicted probability of eating equal or more than 1100 milligrams of calcium';

  array upred DSQfib_high--DSQssb_high;
  do over upred;
    if upred ne . then do;

  if upred < -100 then 
    upred = exp(-100)/(1+exp(-100));
   else if upred > 100 then 
    upred = exp(100)/(1+exp(100));
   else  upred = exp(upred)/(1+exp(upred));
   end;
  end;

run;



/*show results of scoring algorithm;
*/
proc means n nmiss min max mean std;
  by gender;
  var DSQfib--DSQssb_high;
  title2 'predicated intake based on screener responses';
  format gender gender.;
run;

proc means n nmiss min max mean std;
  var DSQfib--DSQssb_high;
  title3 'predicated intake based on screener responses both genders';
run;
proc sort data=mdtq;
  by uniqueid;
run;
/*show results of scoring algorithm;
*/
proc means n nmiss min max mean std;
by uniqueid;
  var DSQfib--DSQssb_high;
  title4 'predicated intake based on screener responses individual';
  format uniqueid;
run;


 

 

 

1 REPLY 1
ballardw
Super User

You should be aware that any process that uses Proc Import has a chance of problems due to content of the file may result in guesses by the procedure that the variable type, length and in the case of date-like data, informats/ formats change.

 

This is further compounded when the file is a  spreadsheet because the number of rows of data examined to determine such is very small by default.

For delimited files such as CSV this can be mitigated somewhat by using the GUESSINGROWS option to examine more records. The case with XLSX and similar requires registry edits.

 

If this is to be done multiple times it will likely improve long-term success by saving XLSX to CSV files and writing data steps to control reading so the variables stay consistent.

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