108 lines
5.0 KiB
Mathematica
108 lines
5.0 KiB
Mathematica
DICOMPZ ;SFISC/GFT-EVALUATE COMPUTED FLD EXPR ;9APR2007
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;;22.0;VA FileMan;**6,76,114,152**;Mar 30, 1999;Build 10
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;Per VHA Directive 2004-038, this routine should not be modified.
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;
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PRIOR ;from DICOMP -- PRIOR.. Functions get archived values
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N DIC,DICOMPSP,DICOMPXE,DICOPS
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S X=$E(X,6,99),DICOMPSP=$E("D",X="DATE"),DICOMPXE="D "_X_"^DIAUTL(",W=$F(I,")",M) S:X="USER"&$D(^VA(200)) DICO("PT")=200,DICOMPSP="p200" I 'W!'$D(DICMX)!'$D(J(0)) K Y Q
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S X=$E(I,M+1,W-2),M=W,W=$E(I,M) S:X?1"#"1.NP X=$E(X,2,999)
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S DIC="^DD("_J(DLV)_",",DIC(0)="",DIC("S")="I '$P(^(0),U,2),$P(^(0),U,2)'[""C""" D DICS^DICOMPY,^DIC K DIC I Y<0 K Y Q ;Find Field that is the argument of PRIOR function
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S DICOMPXE=DICOMPXE_+J(DLV)_","_+Y_")"
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S DICOPS="><[]=",DIMW="m"
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G INSERT
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;
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BACKPNT ;from DICOMPV -- Backwards Pointer
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N DICOPS,D
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S DICOPS="><[]="
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G COLON
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;
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MUL(DICOMPSP) ;DICOMPSP is the SPECIFIER of the Field we have encountered
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N DICOXR,DICOMPXE,DICOPS S DICOPS="><][="
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I DICOMPSP S X=$P(^DD(+DICOMPSP,.01,0),U,2) G WP:X["W" D S DLV=DLV+1,I(DLV)=""""_$P($P(Y(0),U,4),";")_"""",J(DLV)=+DICOMPSP D X G FOR
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.I T<DLV S DLV0=DLV0+100,%=DLV0-(T\100*100) F DLV=DLV0:1 S I(DLV)=I(DLV-%),J(DLV)=J(DLV-%),DG(DLV-%,DLV0-%)=DLV#100 I DLV-%=T S K(K+1,1)=DLV0,(T,DG(DLV0))=DLV Q
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S Y=+$P(DICOMPSP,"p",2),DIMW="m"_$E("w",DICOMPSP["w"),DICOMPXE=$P(Y(0),U,5,99)
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I Y S (%,DLV,DLV0)=DLV0+100,I(%)=^DIC(Y,0,"GL"),J(%)=Y D X^DICOMPV(Y,.01)
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INSERT N DICOMX S D=DICOMPXE,DICOMX=DICMX D CONTAINS Q:'$D(Y) I DICOMX=DICMX D
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.I DICOMPSP["D" S DICMX="S Y=X X ^DD(""DD"") S X=Y "_DICMX
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.I DICOMPSP["p" S DICMX="S X=$$CP^DIQ1("""_DICOMPSP_""",X) "_DICMX
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N F,Z,I S Z=""
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S F=$F(DICMX,"X DICMX") I F D
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.S Z="N DICOMPM S DICOMPM=$G(DICMX,""Q"") "
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.S DICMX=$E(DICMX,1,F-6)_"DICOMPM"_$E(DICMX,F,999)
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D DIMP(DICMX) S Z=Z_"N DICMX S DICMX="_$$DA_$$DIMC_")"
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D DIMP(D),DICOXR S Z=Z_X
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D DIMP(Z) S X=X_" S X=X" Q
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;
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WP S DIMW="m"_$E("w",X'["L"),DICOPS="["
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M S X="S X=^(0)"
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FOR N DICOR,DICOT
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S DICOMPXE=X,DICOT=Y(0) D CONTAINS Q:'$D(Y)
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S Y=T#100+1,D=$P($P(DICOT,U,4),";") I +D'=D S D=""""_D_""""
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S DICOMPXE="D,0))#2 "_DICOMPXE_" "_DICMX_" Q:'$D(D) S D=D"_Y
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S DICOR=$$REF(T)_","_D_",",D="F D=0:0 S (D,D"_Y_")=$O("_DICOR
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I W=")",$D(DPS(DPS,"INTERNAL")) S D="S D=$G(DIWF) N DIWF S DIWF=D_""XL"" "_D ;**DI*22*152
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S %=+$P(DICOT,U,2)
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I $P($G(^DD(%,.01,0)),U,2)["W"!'$D(^DD(%,0,"IX","B",%,.01))
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E I '$D(^DD(%,.01,1,1,0))
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E I $P(^(0),U,3)]""
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I S D=D_"D)) Q:D'>0 I $D(^("_DICOMPXE ;We will go thru the muliple by ien
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E D DIMP(D_"""B"",DICOB,D)) Q:D'>0 I $D("_DICOR_DICOMPXE) S D="N DICOB S DICOB="""" F S DICOB=$O("_DICOR_"""B"",DICOB)) Q:DICOB="""" "_X_" Q:'$D(D)" ;We will go thru the multiple using the B X-ref
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D DIMP($$I(Y)_D)
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S (T,DG(DLV0))=DG(DLV0)+1,K(K+1,2)=1,K(K+2,1)=DLV0,DG(DLV0,T)=Y,M(Y,DLV0+Y)=T
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S X=X_":D"_(Y-1)_">0"
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DICOXR S X=X_" S X="_$S(DIMW["m"!'$D(DICOXR):"""""",1:DICOXR)
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Q
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;
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CONTAINS N DICON
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S DICON=W="'",%=$E(I,M+DICON) I %=""!(W=")") S Y=0 Q
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I DICOPS[% S DICOPS=% D R($E(I,M+DICON+1,999)) Q:'$D(Y) D Q
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.S DICOXR=$$DGI^DICOMP
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.D DIMP("S Y=X "_X_" I Y"_DICOPS_"X S "_DICOXR_"="_'DICON_" K D") S DICMX=X
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.S K(K+1)=" S "_DICOXR_"="_DICON,K=K+1
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.S DBOOL=1,DIMW=""
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COLON I W'=":" Q:W="" S DICOMPX("X")="X",I="X"_$E(I,M,999),M=0 I DICOPS="[" K Y Q
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N DQI D R($E(I,M+1,999)) Q:'$D(Y) I '$D(DICO("RCR")) S DICO("RCR")=Y
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I Y#100=0 S W=$G(J(+Y)) I W S DICO("PT")=W
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S DICMX=X_" "_$G(DICMX) Q ;The 'X" code that we got back from RCR becomes what we eXecute for every multiple!
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;
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R(DICORM) N DICOLEFT,DICOX S DICOLEFT="",DICOX=0 F %=1:1 S W=$E(DICORM,%) Q:W="" S:W="(" DICOX=DICOX+1 I W=")" S DICOX=DICOX-1 I DICOX<0 S DICOLEFT=$E(DICORM,%,999),DICORM=$E(DICORM,1,%-1)
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S DICOX=$G(X) D RCR(DICORM)
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S W="",M=0,I=DICOLEFT S:'$D(Y) I=DICORM,X=DICOX Q
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;
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RCR(W) ;Tricky and important! What we get from this recursion will be inserted into the larger expression.
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N D
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S:+W=W W=""""_W_"""" S D="ZXM"_$$DIMC_" S"_DICOMP D ;Don't allow MUMPS. Remember where to start more nodes in X array. Allow simple numeric.
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.N X,DICOMP,DLV,DICMXSV,K
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.S X=W,DICOMP=D I $D(DICMX) S DICMXSV=DICMX
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DQI .I $D(DQI) S %=DQI N DQI S DQI=%_$$DIMC_","
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.D EN1^DICOMP ;Here is the recursion! I & J, the context, will be preserved by this entry point
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.I '$D(X) K Y Q
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.K W M W=X
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.I Y["m" K DICMXSV
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.I $D(DICMXSV) S DICMX=DICMXSV
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I $D(Y) M X=W D DIMP(X),DATE^DICOMP0:Y["D" ;Remember if it's a DATE
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Q
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;
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DIMP(D) ;
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N DIM
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S DIM=$$DIMC,DIM=DIM+$S(DIM<9.8:.1,1:.01)
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S X(DIM)=D,X=" X "_$$DA_DIM_")" Q
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;
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DA() Q $S(DA:"^DD("_A_","_DA_",",1:DA)
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;
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DIMC() N DIM
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S DIM=$O(X(99),-1) I 'DIM S DIM=+$P(DICOMP,"M",2) I 'DIM S DIM=9.1
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Q DIM
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;
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X ;
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S X="S X=$P(^(0),U)"_$S(X["D"&'$D(DPS($$NEST^DICOMP,"INTERNAL")):",Y=X X ^DD(""DD"") S X=Y",X["P":" S:$D(^"_$P(^(0),U,3)_"+X,0)) X=$P(^(0),U)",X["S":",Y=$F(^DD("_+D_",.01,0),X_$C(58)) S:Y X=$P($E(^(0),Y,999),$C(59),1)",1:""),DIMW="m" Q
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;
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I(LEV) N S
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S S=DLV0+LEV I DICOMP'["I"!'$D(I(S)) Q ""
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Q "S I("_S_")="""_$$CONVQQ^DILIBF(I(S))_""",J("_S_")="_J(S)_" "
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;
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REF(T) ;
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N L,D,X,V
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F L=T\100*100:1:T S D=I(L) S X=$G(X)_D_$E(",",$D(X))_$S(L<DLV0:"I("_L_",0)",1:"D"_(L#100))_","
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Q $E(X,1,$L(X)-1)
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