DVBHQR11 ;ISC-ALBANY/PKE-parse HINQ response ; 8/29/05 8:49am ;;4.0;HINQ;**32,35,49**;03/25/92 ; ; STAT ;Parse Statistics Segment for the records that have it. I ($P(DVBBAS(1),U,6)="A"!($P(DVBBAS(1),U,6)="E")),$P(DVBBAS(1),U,4)="00" D ASTAT I $P(DVBBAS(1),U,6)="B"!($P(DVBBAS(1),U,6)="F") D BSTAT I $P(DVBBAS(1),U,6)="E",$P(DVBBAS(1),U,4)'="00" D BSTAT I $P(DVBBAS(1),U,6)="C",$P(DVBBAS(1),U,4)=10 D CSTAT I $P(DVBBAS(1),U,6)="C",$P(DVBBAS(1),U,4)'=10 S DVBVET="C^^^^" ; G CHILD ;changing the order of the response message - diag will ;come at the very end to accommodate variable length records ; DIAG ;Diagnostics Segment. K DXP,DX,DVBDX,DVBEFF N DVBCUR,DVBEXT,DVBORIG ;with the HINQ replacement, interim solution (DVB*4*49) there are ;several changes to the diagnostic segment. Total # codes, Add'l ;codes, length of segment are not longer being sent. # SC Codes is ;being stored in DVBDXNO. The for loop at DIAG+15 will terminate ;after DVBDXNO, the 6 code limit from VBA has been increased to 150. ;Total # of SC Diagnostic Codes. S DVBV1=$E(X,1,3) I DVBV1["{" S DVBV2=2 D SIGN^DVBHUTIL Q:$G(DVBERCS) ;???? S DVBDXNO=+DVBV1 ;Combined Degree of Disability, Effective Date of Combined SC% Eval S DVBDXPCT=$E(X,4,6) S DVBDXPCT=$TR(DVBDXPCT," ") S DVBEFF=$E(X,7,14) S DVBEFF=$TR(DVBEFF," ") S L=15 D RON S L=1 ;Y=Diagnostic Codes; DXP(I)=Percent of Disability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sorting by SC% so that they will be saved and displayed that way N DVBCT,DVBDD,DVBE,DVBEE F DVBE=0:0 S DVBE=$O(DVBDX(DVBE)) Q:DVBE'>0 S DVBDD(+$P(DVBDX(DVBE),U,3),DVBE)=DVBDX(DVBE) S DVBE="",DVBCT=1 F S DVBE=$O(DVBDD(DVBE),-1) Q:DVBE']"" D . F DVBEE=0:0 S DVBEE=$O(DVBDD(DVBE,DVBEE)) Q:DVBEE'>0 D . . S DVBDX(DVBCT)=DVBDD(DVBE,DVBEE) S DVBCT=DVBCT+1 K DVBDD,DX,DXP Q S L=L+1 D RON ; CHILD ;Child-Birth-Data. S $P(DVBCHI,U,1)=$E(X,1,2) S DVBV1=$E(X,3,4) I DVBV1?1N1A!(DVBV1["{") S DVBV2=2 D SIGN^DVBHUTIL Q:$G(DVBERCS) S DVBCHNO=DVBV1,L=5,J1=0 D RON I 'DVBCHNO S DVBCHNO=0 F DVBV=1:1:20 S L=20 D RON E F DVBV=1:1:20 S DVBV1=$E(X,1,19),L=20 D RON I DVBV'>DVBCHNO S DVBCHDOB=$E(DVBV1,1,8) S:DVBCHDOB?8N J1=J1+1,DVBCHILD(J1_DVBCHDOB)=$E(DVBV1,9)_U_$E(DVBV1,10,19) K DVBCHDOB,J1,DVBV1,DVBV ; WITH ;WITHHOLDING-APPORTIONED-SEGMENT. S $P(DVBWIT,U,1)=$E(X,1),DVBV1=$E(X,2,7) I DVBV1?5N1A!(DVBV1["{") S DVBV2=6 D SIGN^DVBHUTIL Q:$G(DVBERCS) S $P(DVBWIT,U,2)=+$E(DVBV1,1,4)_"."_$E(DVBV1,5,6) S DVBV1=$E(X,8,13) I DVBV1?5N1A!(DVBV1["{") S DVBV2=6 D SIGN^DVBHUTIL Q:$G(DVBERCS) S $P(DVBWIT,U,3)=+$E(DVBV1,1,4)_"."_$E(DVBV1,5,6) S DVBV1=$E(X,14,19) I DVBV1?5N1A!(DVBV1["{") S DVBV2=6 D SIGN^DVBHUTIL Q:$G(DVBERCS) S $P(DVBWIT,U,4)=+$E(DVBV1,1,4)_"."_$E(DVBV1,5,6),$P(DVBWIT,U,5)=$E(X,20) S L=21 D RON ; NMADR ;ADDRESS-SEGMENT. S M("+")=7 F I=65:1:70 S M($C(I))=71-I S M("-")=15 F I=74:1:80 S M($C(I))=88-I F I=84:1:88 S M($C(I))=104-I S M("&")=7 ;Blank & Length of Segment: S $P(DVBADD,U,1)=$E(X,1),DVBV1=$E(X,2,4) I DVBV1?2N1A!(DVBV1["{") S DVBV2=3 D SIGN^DVBHUTIL Q:$G(DVBERCS) S $P(DVBADD,U,2)=DVBV1 ;Sequence Control: S $P(DVBADD,U,3)=$E(X,5) ;Name Line Indicator: S $P(DVBADD,U,4)=$E(X,6) ;Zip Code: S DVBZIP=$E(X,7,15) S DVBZIP=$E(DVBZIP,1,5) ;use only 1st 5 digits - DVB*4*49 S L=16,L1=15 F I=1:1:DVBADRLN Q:$E(X,L)=" "!($E(X,L)="") Q:'$G(M($E(X,L))) S M=M($E(X,L)),DVBADR(I)=$E(X,L+1,L+M),L=L+M+1,L1=L1+M+1 D RON S L=1 S $P(DVBADD,U,18)=145-L1 S L=$P(DVBADD,U,18)+1 D RON K M,L1 ;instead of calling DEDBL^DVBHQR12 call REF^DVBHQR12, since the DED/BAL ;segments will no longer be included in the VBA resp message, DVB*4*49 G REF^DVBHQR12 ; RON S X=$E(X,L,999),LX=$L(X),LY=254-LX I $D(X(2)),(LX+$L(X(2)))<256 S X=X_X(2) K X(2) D RON1 Q I $D(X(2)) S X=X_$E(X(2),1,LY),X(2)=$E(X(2),LY+1,999) Q Q ; RON1 F Z1=3:1:99 I $D(X(Z1)),'$D(X(Z1-1)) S X(Z1-1)=X(Z1) K X(Z1) Q:'$O(X(Z1)) QUIT ; ASTAT ;Statistics Segment of Type A Record. S $P(DVBVET,U,1)="A",$P(DVBVET,U,2)=$E(X,1) S $P(DVBVET,U,3)=$E(X,2) S DVBBOS(1)=$E(X,3),DVBEOD(1)=$E(X,4,11),DVBRAD(1)=$E(X,12,19),DVBASVC=$E(X,20),DVBDOB=$E(X,21,28) S $P(DVBVET,U,9)=$E(X,29,30),$P(DVBVET,U,10)=$E(X,31) S $P(DVBP(2),U,2)=$E(X,32) S DVBEI=$E(X,33),DVBCI=$E(X,34) S $P(DVBVET,U,14)=$E(X,35) S DVBCPS=$E(X,36) S DVBPTI=$E(X,37) S $P(DVBP(2),U,6)=$E(X,38,39),$P(DVBP(2),U,3)=$E(X,40,41),$P(DVBP(2),U,1)=$E(X,42,43),$P(DVBP(2),U,4)=$E(X,44),$P(DVBP(2),U,5)=$E(X,45) S L=46 D RON S DVBSPDOB=$E(X,1,8) ;leave spouse DOB in format MMDDYYYY S DVBSPNAM=$E(X,9,18) ;;;DVBPTI=$E(X,40) ;Hospitalized SMC code: S $P(DVBVET,U,24)=$E(X,19,20) ;DOB of Father: S $P(DVBVET,U,25)=$E(X,21,28) ;DOB of Mother: S $P(DVBVET,U,26)=$E(X,29,36) ;Blanks: S $P(DVBVET,U,27)=$E(X,37,40) S L=41 D RON Q ; BSTAT ;Statistics Segment of Type B Record. S $P(DVBVET,U,1)="B",$P(DVBVET,U,2)=$E(X,1) S $P(DVBVET,U,3)=$E(X,2) S DVBBOS(1)=$E(X,3),DVBEOD(1)=$E(X,4,11),DVBRAD(1)=$E(X,12,19),DVBASVC=$E(X,20),DVBDOB=$E(X,21,28) S DVBDOB=$E(DVBDOB,5,8)_$E(DVBDOB,1,4) S $P(DVBVET,U,9)=$E(X,29,30),$P(DVBVET,U,10)=$E(X,31,37) ;Age at Death & Death Date: S $P(DVBVET,U,11)=$E(X,38,39),$P(DVBVET,U,12)=$E(X,40,47) ;Blank & Pay Grade S $P(DVBVET,U,13)=$E(X,48),$P(DVBVET,U,14)=$E(X,49,50) ;DOB of Payee & DOB of 3rd Party: S $P(DVBVET,U,15)=$E(X,51,58),$P(DVBVET,U,16)=$E(X,59,66) ;Name of 3rd Party & Filler S $P(DVBVET,U,17)=$E(X,67,73),$P(DVBVET,U,18)=$E(74,85) S L=86 D RON Q ; CSTAT ;Statistics Segment of Type C Record. S $P(DVBVET,U,1)="C",$P(DVBVET,U,2)=$E(X,1) ;CP-APPORT-SPOUSE NAME & DOB S $P(DVBVET,U,3)=$E(X,2,11),$P(DVBVET,U,4)=$E(X,12,19) S $P(DVBVET,U,5)=$E(X,20,25) S L=86 D RON Q