source: smart/trunk/p/C0SNHIN.m@ 1586

C0SNHIN   ; GPL - Smart Container - OUTPUT OF NHINV ROUTINES;6/3/11  17:05
        ;;1.0;VISTA SMART CONTAINER;;Sep 26, 2012;Build 4
        ;Copyright 2011-2012 George Lilly.  Licensed under the terms of the GNU
        ;General Public License See attached copy of the License.
        ;
        ;This program is free software; you can redistribute it and/or modify
        ;it under the terms of the GNU General Public License as published by
        ;the Free Software Foundation; either version 2 of the License, or
        ;(at your option) any later version.
        ;
        ;This program is distributed in the hope that it will be useful,
        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
        ;GNU General Public License for more details.
        ;
        ;You should have received a copy of the GNU General Public License along
        ;with this program; if not, write to the Free Software Foundation, Inc.,
        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
        ;
        Q
EN(ZRTN,ZDFN,ZPART,KEEP)        ; GENERATE AN NHIN ARRAY FOR A PATIENT
        ;
        K GARY,GNARY,GIDX,C0SDOCID
        K ZRTN
        N GN
        K ^TMP("NHINV",$J) ; CLEAN UP FROM LAST CALL
        K ^TMP("MXMLDOM",$J) ; CLEAN UP DOM
        K ^TMP("MXMLERR",$J) ; CLEAN UP MXML ERRORS
        D GET^C0SNHINV(.GN,ZDFN,ZPART) ; CALL NHINV ROUTINES TO PULL XML
        S GN=$P(GN,")",1)_")" ; CUT OFF THE REST OF LINE PROTOCOL
        S C0SDOCID=$$PARSE(GN,"NHINARRAY") ; PARSE WITH MXML
        D DOMO^C0SDOM(C0SDOCID,"/","ZRTN","GIDX","GARY",,"/results/") ; BLD ARRAYS
        I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
        ;D PROCESS("ZRTN",GN,"/result/",$G(KEEP))
        Q
        ;
PQRI(ZOUT,KEEP) ; RETURN THE NHIN ARRAY FOR THE PQRI XML TEMPLATE
        ;
        N ZG
        S ZG=$NA(^TMP("PQRIXML",$J))
        K @ZG
        D GETXML^C0SMXP(ZG,"PQRIXML") ; GET THE XML FROM C0S MISC XML
        N C0SDOCID
        S C0SDOCID=$$PARSE^C0SDOM(ZG,"PQRIXML") ; PARSE THE XML
        D DOMO^C0SDOM(C0SDOCID,"/","ZOUT","GIDX","GARY",,"//submission") ; BLD ARRAYS
        I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
        Q
        ;
PQRI2(ZRTN)     ; RETURN THE NHIN ARRAY FOR PQRI ONE MEASURE
        ;
        ;N GG
        D GETXML^C0SMXP("GG","PQRI ONE MEASURE")
        D PROCESS(ZRTN,"GG","root",1)
        Q
        ;
PROCESS(ZRSLT,ZXML,ZREDUCE,KEEP)        ; PARSE AND RUN DOMO ON XML
        ; ZRTN IS PASSED BY REFERENCE
        ; ZXML IS PASSED BY NAME
        ; IF KEEP IS 1, GARY AND GIDX ARE NOT KILLED
        ;
        N GN
        S GN=$NA(^TMP("C0SPROCESS",$J))
        K @GN
        M @GN=@ZXML
        S C0SDOCID=$$PARSE(GN,"NHINARRAY") ; PARSE WITH MXML
        K @GN
        D DOMO^C0SDOM(C0SDOCID,"/","ZRSLT","GIDX","GARY",,$G(ZREDUCE)) ; BLD ARRAYS
        I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
        Q
        ;
LOADSMRT        ; 
        ;
        K ^GPL("SMART")
        S GN=$NA(^GPL("SMART",1))
        I $$FTG^%ZISH("/home/george/","alex-lewis2.xml",GN,2) W !,"SMART FILE LOADED"
        Q
        ;
SMART   ; TRY IT WITH SMART
        ;
        S GN=$NA(^GPL("SMART"))
        ;K ^TMP("MXMLDOM",$J)
        K ^TMP("MXMLERR",$J)
        S C0SDOCID=$$PARSE(GN,"SMART")
        D DOMO^C0SDOM(C0SDOCID,"/","GNARY","GIDX","GARY",,"//rdf:RDF/")
        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
        Q
        ;
CCR     ; TRY IT WITH A CCR
        ;
        S GN=$NA(^GPL("CCR"))
        ;K ^TMP("MXMLDOM",$J)
        K ^TMP("MXMLERR",$J)
        S C0SDOCID=$$PARSE(GN,"CCR")
        D DOMO^C0SDOM(C0SDOCID,"/","GNARY","GIDX","GARY",,"//ContinuityOfCareRecord/Body/")
        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
        Q
        ;
MED     ; TRY IT WITH A CCR MED SECTION
        ;
        S GN=$NA(^GPL("MED"))
        K ^TMP("MXMLDOM",$J)
        K ^TMP("MXMLERR",$J)
        S C0SDOCID=$$PARSE(GN,"MED")
        D DOMO^C0SDOM(C0SDOCID,"/","GNARY","GIDX","GARY",,"//Medications/")
        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
        Q
        ;
CCD     ; TRY IT WITH A CCD
        ;
        S GN=$NA(^GPL("CCD"))
        ;K ^TMP("MXMLDOM",$J)
        K ^TMP("MXMLERR",$J)
        S C0SDOCID=$$PARSE(GN,"CCD")
        D DOMO^C0SDOM(C0SDOCID,"/","GNARY","GIDX","GARY",,"//ClinicalDocument/component/structuredBody/")
        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
        Q
        ;
TEST1   ; TEST NHINV OUTPUT IN ^GPL("NIHIN") 
        ; PARSED WITH MXML
        ; RUN THROUGH XPATH
        K GARY,GIDX,C0SDOCID
        S GN=$NA(^GPL("NHIN"))
        ;S GN=$NA(^GPL("DOMI"))
        S C0SDOCID=$$PARSE(GN,"GPLTEST")
        D DOMO^C0SDOM(C0SDOCID,"/","GNARY","GIDX","GARY",,"/results/")
        K ^GPL("GNARY")
        M ^GPL("GNARY")=GNARY
        Q
        ;
TEST2   ; PUT GNARY THROUGH DOMI AND STORE XML IN ^GPL("DOMI")
        ;
        S GN=$NA(^GPL("GNARY"))
        S C0SDOCID=$$DOMI^C0SDOM(GN,,"results")
        D OUTXML^C0SDOM("G",C0SDOCID)
        K ^GPL("DOMI")
        M ^GPL("DOMI")=G
        Q
        ;
TEST3   ; TEST NHINV OUTPUT IN ^GPL("NIHIN") 
        ; PARSED WITH MXML
        ; RUN THROUGH XPATH
        K GARY,GIDX,C0SDOCID
        ;S GN=$NA(^GPL("NHIN"))
        S GN=$NA(^GPL("DOMI"))
        S C0SDOCID=$$PARSE(GN,"GPLTEST")
        D DOMO^C0SDOM(C0SDOCID,"/","GNARY","GIDX","GARY",,"/results/")
        Q
        ;
DOMO(ZOID,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; RECURSIVE ROUTINE TO POPULATE
        ; THE XPATH INDEX ZXIDX, PASSED BY NAME
        ; THE XPATH ARRAY XPARY, PASSED BY NAME
        ; ZOID IS THE STARTING OID
        ; ZPATH IS THE STARTING XPATH, USUALLY "/"
        ; ZNUM IS THE MULTIPLE NUMBER [x], USUALLY NULL WHEN ON THE TOP NODE
        ; ZREDUX IS THE XPATH REDUCTION STRING, TAKEN OUT OF EACH XPATH IF PRESENT
        I $G(ZREDUX)="" S ZREDUX=""
        N NEWPATH,NARY ; NEWPATH IS AN XPATH NARY IS AN NHIN MUMPS ARRAY
        N NEWNUM S NEWNUM=""
        I $G(ZNUM)>0 S NEWNUM="["_ZNUM_"]"
        S NEWPATH=ZPATH_"/"_$$TAG(ZOID)_NEWNUM ; CREATE THE XPATH FOR THIS NODE
        I $G(ZREDUX)'="" D  ; REDUX PROVIDED?
        . N GT S GT=$P(NEWPATH,ZREDUX,2)
        . I GT'="" S NEWPATH=GT
        S @ZXIDX@(NEWPATH)=ZOID ; ADD THE XPATH FOR THIS NODE TO THE XPATH INDEX
        N GA D ATT("GA",ZOID) ; GET ATTRIBUTES FOR THIS NODE
        I $D(GA) D  ; PROCESS THE ATTRIBUTES
        . N ZI S ZI=""
        . F  S ZI=$O(GA(ZI)) Q:ZI=""  D  ; FOR EACH ATTRIBUTE
        . . N ZP S ZP=NEWPATH_"/"_ZI ; PATH FOR ATTRIBUTE
        . . S @ZXPARY@(ZP)=GA(ZI) ; ADD THE ATTRIBUTE XPATH TO THE XP ARRAY
        . . I GA(ZI)'="" D ADDNARY(ZP,GA(ZI)) ; ADD THE NHIN ARRAY VALUE
        N GD D DATA("GD",ZOID) ; SEE IF THERE IS DATA FOR THIS NODE
        I $D(GD(2)) D  ;
        . M @ZXPARY@(NEWPATH)=GD ; IF MULITPLE DATA MERGE TO THE ARRAY
        E  I $D(GD(1)) D  ;
        . S @ZXPARY@(NEWPATH)=GD(1) ; IF SINGLE VALUE, ADD TO ARRAY
        . I GD(1)'="" D ADDNARY(NEWPATH,GD(1)) ; ADD TO NHIN ARRAY
        N ZFRST S ZFRST=$$FIRST(ZOID) ; SET FIRST CHILD
        I ZFRST'=0 D  ; THERE IS A CHILD
        . N ZNUM
        . N ZMULT S ZMULT=$$ISMULT(ZFRST) ; IS FIRST CHILD A MULTIPLE
        . D DOMO(ZFRST,NEWPATH,ZNARY,ZXIDX,ZXPARY,$S(ZMULT:1,1:""),ZREDUX) ; THE CHILD
        N GNXT S GNXT=$$NXTSIB(ZOID)
        I $$TAG(GNXT)'=$$TAG(ZOID) S ZNUM="" ; RESET COUNTING AFTER MULTIPLES
        I GNXT'=0 D  ;
        . N ZMULT S ZMULT=$$ISMULT(GNXT) ; IS THE SIBLING A MULTIPLE?
        . I (ZNUM="")&(ZMULT) D  ; SIBLING IS FIRST OF MULTIPLES
        . . N ZNUM S ZNUM=1 ;
        . . D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; DO NEXT SIB
        . E  D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; SIB
        Q
        ;
ADDNARY(ZXP,ZVALUE)     ; ADD AN NHIN ARRAY VALUE TO ZNARY
        ;
        N ZZI,ZZJ,ZZN
        S ZZI=$P(ZXP,"/",1) ; FIRST PIECE OF XPATH ARRAY
        I ZZI="" Q  ; DON'T ADD THIS ONE .. PROBABLY THE //results NODE
        S ZZJ=$P(ZXP,ZZI_"/",2) ; REST OF XPATH ARRAY
        S ZZJ=$TR(ZZJ,"/",".") ; REPLACE / WITH .
        I ZZI'["]" D  ; A SINGLETON
        . S ZZN=1
        E  D  ; THERE IS AN [x] OCCURANCE
        . S ZZN=$P($P(ZZI,"[",2),"]",1) ; PULL OUT THE OCCURANCE
        . S ZZI=$P(ZZI,"[",1) ; TAKE OUT THE [X]
        I ZZJ'="" S @ZNARY@(ZZI,ZZN,ZZJ)=ZVALUE
        Q
        ;
PARSE(INXML,INDOC)      ;CALL THE MXML PARSER ON INXML, PASSED BY NAME
        ; INDOC IS PASSED AS THE DOCUMENT NAME - DON'T KNOW WHERE TO STORE THIS NOW
        ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY MXML
        ;Q $$EN^MXMLDOM(INXML)
        Q $$EN^MXMLDOM(INXML,"W")
        ;
ISMULT(ZOID)    ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
        N ZN
        ;I $$TAG(ZOID)["entry" B
        S ZN=$$NXTSIB(ZOID)
        I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
        Q 0
        ;
FIRST(ZOID)     ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
        Q $$CHILD^MXMLDOM(C0SDOCID,ZOID)
        ;
PARENT(ZOID)    ;RETURNS THE OID OF THE PARENT OF ZOID
        Q $$PARENT^MXMLDOM(C0SDOCID,ZOID)
        ;
ATT(RTN,NODE)   ;GET ATTRIBUTES FOR ZOID
        S HANDLE=C0SDOCID
        K @RTN
        D GETTXT^MXMLDOM("A")
        Q
        ;
TAG(ZOID)       ; RETURNS THE XML TAG FOR THE NODE
        ;I ZOID=149 B ;GPLTEST
        N X,Y
        S Y=""
        S X=$G(C0SCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
        I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
        I Y="" S Y=$$NAME^MXMLDOM(C0SDOCID,ZOID)
        Q Y
        ;
NXTSIB(ZOID)    ; RETURNS THE NEXT SIBLING
        Q $$SIBLING^MXMLDOM(C0SDOCID,ZOID)
        ;
DATA(ZT,ZOID)   ; RETURNS DATA FOR THE NODE
        ;N ZT,ZN S ZT=""
        ;S C0SDOM=$NA(^TMP("MXMLDOM",$J,C0SDOCID))
        ;Q $G(@C0SDOM@(ZOID,"T",1))
        S ZN=$$TEXT^MXMLDOM(C0SDOCID,ZOID,ZT)
        Q
        ;
OUTXML(ZRTN,INID)       ; USES C0SMXMLB (MXMLBLD) TO OUTPUT XML FROM AN MXMLDOM
        ;
        S C0SDOCID=INID
        D START^C0SMXMLB($$TAG(1),,"G")
        D NDOUT($$FIRST(1))
        D END^C0SMXMLB ;END THE DOCUMENT
        M @ZRTN=^TMP("MXMLBLD",$J)
        K ^TMP("MXMLBLD",$J)
        Q
        ;
NDOUT(ZOID)     ;CALLBACK ROUTINE - IT IS RECURSIVE
        N ZI S ZI=$$FIRST(ZOID)
        I ZI'=0 D  ; THERE IS A CHILD
        . N ZATT D ATT("ZATT",ZOID) ; THESE ARE THE ATTRIBUTES MOVED TO ZATT
        . D MULTI^C0SMXMLB("",$$TAG(ZOID),.ZATT,"NDOUT^C0SMXML(ZI)") ;HAVE CHILDREN
        E  D  ; NO CHILD - IF NO CHILDREN, A NODE HAS DATA, IS AN ENDPOINT
        . ;W "DOING",ZOID,!
        . N ZD D DATA("ZD",ZOID) ;NODES WITHOUT CHILDREN HAVE DATA
        . N ZATT D ATT("ZATT",ZOID) ;ATTRIBUTES
        . D ITEM^C0SMXMLB("",$$TAG(ZOID),.ZATT,$G(ZD(1))) ;NO CHILDREN
        I $$NXTSIB(ZOID)'=0 D  ; THERE IS A SIBLING
        . D NDOUT($$NXTSIB(ZOID)) ;RECURSE FOR SIBLINGS
        Q
        ;
WNHIN(ZDFN)     ; WRITES THE XML OUTPUT OF GET^NHINV TO AN XML FILE
        ;
        N GN,GN2
        D GET^NHINV(.GN,ZDFN) ; EXTRACT THE XML
        S GN2=$NA(@GN@(1))
        W $$OUTPUT^C0SXPATH(GN2,"nhin_"_ZDFN_".xml","/home/wvehr3-09/")
        Q
        ;
TESTNARY        ; TEST MAKING A NHIN ARRAY
        N ZI S ZI=""
        N ZH ; DOM HANDLE
        D TEST1 ; PARSE AN NHIN RESULT INTO THE DOM
        S ZH=C0SDOCID ; SET THE HANDLE
        N ZD S ZD=$NA(^TMP("MXMLDOM",$J,ZH))
        F  S ZI=$O(@ZD@(ZI)) Q:ZI=""  D  ; FOR EACH NODE
        . N ZATT
        . D MNARY(.ZATT,ZH,ZI)
        . N ZPRE,ZN
        . S ZPRE=$$PRE(ZI)
        . S ZN=$P(ZPRE,",",2)
        . S ZPRE=$P(ZPRE,",",1)
        . ;I $D(ZATT) ZWR ZATT
        . N ZJ S ZJ=""
        . F  S ZJ=$O(ZATT(ZJ)) Q:ZJ=""  D  ; FOR EACH ATTRIBUTE
        . . W ZPRE_"["_ZN_"]"_$$TAG(ZI)_"."_ZJ_"="_ZATT(ZJ),!
        . . S GOUT(ZPRE,ZN,$$TAG(ZI)_"."_ZJ)=ZATT(ZJ)
        Q
        ;
PRE(ZNODE)      ; EXTRINSIC WHICH RETURNS THE PREFIX FOR A NODE
        ;
        N GI,GI2,GPT,GJ,GN
        S GI=$$PARENT(ZNODE) ; PARENT NODE
        I GI=0 Q ""  ; NO PARENT
        S GPT=$$TAG(GI) ; TAG OF PARENT
        S GI2=$$PARENT(GI) ; PARENT OF PARENT
        I (GI2'=0)&($$TAG(GI2)'="results") S GPT=$$TAG(GI2)_"."_GPT
        S GJ=$$FIRST(GI) ; NODE OF FIRST SIB
        I GJ=ZNODE Q:$$TAG(GI)_",1"
        F GN=2:1 Q:GJ=ZNODE  D  ;
        . S GJ=$$NXTSIB(GJ) ; NEXT SIBLING 
        Q GPT_","_GN
        ;
MNARY(ZRTN,ZHANDLE,ZOID)        ; MAKE A NHIN ARRAY FROM A DOM NODE
        ; RETURNED IN ZRTN, PASSED BY REFERENCE
        ; ZHANDLE IS THE DOM DOCUMENT ID
        ; ZOID IS THE DOM NODE
        D ATT("ZRTN",ZOID)
        Q
        ;