C0CMXP ; GPL - MXML based XPath utilities;12/04/09 17:05 ;;0.1;C0C;nopatch;noreleasedate;Build 38 ;Copyright 2009 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 ; INITXPF(ARY) ;INITIAL XML/XPATH FILE ARRAY ; DON'T USE THIS ONE ... USE INITFARY^C0CSOAP("FARY") INSTEAD D INITFARY^C0CSOAP(ARY) ; Q S @ARY@("XML FILE NUMBER")=178.101 S @ARY@("XML SOURCE FIELD")=2.1 S @ARY@("XML TEMPLATE FIELD")=3 S @ARY@("XPATH BINDING SUBFILE")=178.1014 S @ARY@("REDUX FIELD")=2.5 Q ; SETXPF(ARY) ; SET FILE AND FIELD VARIABLES FROM XPF ARRAY ; S C0CXPF=@ARY@("XML FILE NUMBER") S C0CXFLD=@ARY@("XML") S C0CXTFLD=@ARY@("TEMPLATE XML") S C0CXPBF=@ARY@("BINDING SUBFILE NUMBER") S C0CRDUXF=@ARY@("XPATH REDUCTION STRING") Q ; ADDXP(INARY,TID,FARY) ;ADD XPATH .01 FIELD TO BINDING SUBFILE OF TEMPLATE TID I '$D(FARY) D ; . S FARY="FARY" ; FILE ARRAY . D INITXPF("FARY") ;IF FILE ARRAY NOT PASSED, INITIALIZE D SETXPF(FARY) ;SET FILE VARIABLES N C0CA,C0CB S C0CA="" S C0CB=0 F S C0CA=$O(@INARY@(C0CA)) Q:C0CA="" D ; FOR EACH XPATH . S C0CB=C0CB+1 ; COUNT OF XPATHS . S C0CFDA(C0CXPBF,"?+"_C0CB_","_TID_",",.01)=C0CA . D UPDIE ; CREATE THE BINDING SUBFILE FOR THIS XPATH Q ; FIXICD9 ; FIX THE ICD9RESULT XML D GETXML("GPL","ICD9RESULT") ; GET SOME BAD XML OUT OF THE FILE S ZI="" S G="" F S ZI=$O(GPL(ZI)) Q:ZI="" D ; FOR EACH LINE . S G=G_GPL(ZI) ; MAKE ONE BIG STRING OF XML D NORMAL^C0CSOAP("G2","G") ;NO NORMALIZE IT BACK INTO AN ARRAY D ADDXML("G2","ICD9RESULT") ; AND PUT IT BACK Q ADDXML(INXML,TEMPID,INFARY) ;ADD XML TO A TEMPLATE ID TEMPID ; INXML IS PASSED BY NAME I '$D(INFARY) D ; . S INFARY="FARY" ; FILE ARRAY . D INITXPF("FARY") ;IF FILE ARRAY NOT PASSED, INITIALIZE I +TEMPID=0 S TEMPID=$$RESTID^C0CSOAP(TEMPID,INFARY) ;RESOLVE TEMPLATE NAME D SETXPF(INFARY) ;SET FILE VARIABLES D WP^DIE(C0CXPF,TEMPID_",",C0CXFLD,,INXML) Q ; ADDTEMP(INXML,TEMPID,INFARY) ;ADD XML TEMPLATE TO TEMPLATE RECORD TEMPID ; I '$D(INFARY) D ; . S INFARY="FARY" ; FILE ARRAY . D INITXPF("FARY") ;IF FILE ARRAY NOT PASSED, INITIALIZE I +TEMPID=0 S TEMPID=$$RESTID^C0CSOAP(TEMPID,INFARY) ;RESOLVE TEMPLATE NAME D SETXPF(INFARY) ;SET FILE VARIABLES D WP^DIE(C0CXPF,TEMPID_",",C0CXTFLD,,INXML) Q ; GETXML(OUTXML,TEMPID,INFARY) ;GET THE XML FROM TEMPLATE TEMPID ; I '$D(INFARY) D ; . S INFARY="FARY" ; FILE ARRAY . D INITXPF("FARY") ;IF FILE ARRAY NOT PASSED, INITIALIZE D SETXPF(INFARY) ;SET FILE VARIABLES I +TEMPID=0 S TEMPID=$$RESTID^C0CSOAP(TEMPID,INFARY) ;RESOLVE TEMPLATE NAME I $$GET1^DIQ(C0CXPF,TEMPID_",",C0CXFLD,,OUTXML)'=OUTXML D Q ; . W "ERROR RETRIEVING TEMPLATE",! Q ; GETTEMP(OUTXML,TEMPID,FARY) ;GET THE TEMPLATE XML FROM TEMPLATE TEMPID ; I '$D(FARY) D ; . S FARY="FARY" ; FILE ARRAY . D INITXPF("FARY") ;IF FILE ARRAY NOT PASSED, INITIALIZE D SETXPF(FARY) ;SET FILE VARIABLES I +TEMPID=0 S TEMPID=$$RESTID^C0CSOAP(TEMPID,FARY) ;RESOLVE TEMPLATE NAME I $$GET1^DIQ(C0CXPF,TEMPID_",",C0CXTFLD,,OUTXML)'=OUTXML D Q ; . W "ERROR RETRIEVING TEMPLATE",! Q ; COPYWP(ZFLD,ZSRCREC,ZDESTREC,ZSRCF,ZDESTF) ; COPIES A WORD PROCESSING FIELD ; FROM ONE RECORD TO ANOTHER RECORD ; ZFLD IS EITHER A NUMBERIC FIELD OR A NAME IN ZSRCF ; ZSRCF IS THE SOURCE FILE, IN FILE REDIRECT FORMAT ; IF ZSRCF IS OMMITED, THE DEFAULT C0C XML MISC FILE WILL BE ASSUMED ; ZDESTF IS DESTINATION FILE. IF OMMITED, IS ASSUMED TO BE THE SAME ; A ZSRCF I '$D(ZSRCF) D ; . S ZSRCF="ZSRCF" . D INITFARY^C0CSOAP(ZSRCF) I '$D(ZDESTF) D ; . S ZDESTF="ZDESTF" . M @ZDESTF=@ZSRCF N ZSF,ZDF,ZSFREF,ZDFREF S ZSF=@ZSRCF@("XML FILE NUMBER") S ZSFREF=$$FILEREF^C0CRNF(ZSF) S ZDF=@ZDESTF@("XML FILE NUMBER") S ZDFREF=$$FILEREF^C0CRNF(ZDF) N ZSIEN,ZDIEN S ZSIEN=$O(@ZSFREF@("B",ZSRCREC,"")) I ZSIEN="" W !,"ERROR SOURCE RECORD NOT FOUND" Q ; S ZDIEN=$O(@ZDFREF@("B",ZDESTREC,"")) I ZDIEN="" W !,"ERROR DESTINATION RECORD NOT FOUND" Q ; N ZFLDNUM I +ZFLD=0 S ZFLDNUM=@ZSRCF@(ZFLD) ; IF FIELD IS PASSED BY NAME E S ZFLDNUM=ZFLD ; IF FIELD IS PASSED BY NUMBER N ZWP,ZWPN S ZWPN=$$GET1^DIQ(ZSF,ZSIEN_",",ZFLDNUM,,"ZWP") ; GET WP FROM SOURCE I ZWPN'="ZWP" W !,"ERROR SOURCE FIELD EMPTY" Q ; D WP^DIE(ZDF,ZDIEN_",",ZFLDNUM,,"ZWP") ; PUT WP FIELD TO DEST Q ; COMPILE(TID,UFARY) ; COMPILES AN XML TEMPLATE AND GENERATES XPATH BINDINGS ; UFARY IF SPECIFIED WILL REDIRECT THE XML FILE TO USE ; INTID IS THE IEN OF THE RECORD TO USE IN THE XML FILE ; XML IS PULLED FROM THE "XML" FIELD AND THE COMPILED RESULT PUT ; IN THE "XML TEMPLATE" FIELD. ALL XPATHS USED IN THE TEMPLATE ; WILL BE POPULATED TO THE XPATH BINDINGS SUBFILE AS .01 I '$D(UFARY) D ; . S UFARY="DEFFARY" ; FILE ARRAY . ;D INITXPF("UFARY") ;IF FILE ARRAY NOT PASSED, INITIALIZE . D INITFARY^C0CSOAP(UFARY) D SETXPF(UFARY) ;SET FILE VARIABLES I +TID=0 S INTID=$$RESTID^C0CSOAP(TID,UFARY) E S INTID=TID ;B ;N C0CXML,C0CREDUX,C0CTEMP,C0CIDX D GETXML("C0CXML",INTID,UFARY) S C0CREDUX=$$GET1^DIQ(C0CXPF,INTID_",",C0CRDUXF,"E") ;XPATH REDUCTION STRING D MKTPLATE("C0CTEMP","C0CIDX","C0CXML",C0CREDUX) ; CREATE TEMPLATE AND IDX D ADDTEMP("C0CTEMP",INTID,UFARY) ; WRITE THE TEMPLATE TO FILE D ADDXP("C0CIDX",INTID,UFARY) ;CREATE XPATH SUBFILE ENTRIES FOR EVERY XPATH Q ; MKTPLATE(OUTT,OUTIDX,INXML,REDUX) ;MAKE A TEMPLATE FROM INXML, RETURNED IN OUTT ; BOTH PASSED BY NAME. THE REDUX XPATH REDUCTION STRING IS USED IF PASSED ; OUTIDX IS AN ARRAY OF THE XPATHS USED IN MAKING THE TEMPLATE ; S C0CXLOC=$NA(^TMP("C0CXML",$J)) K @C0CXLOC M @C0CXLOC=@INXML S C0CDOCID=$$PARSE^C0CMXML(C0CXLOC,"C0CMKT") K @C0CXLOC S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID)) ;N GIDX,GIDX2,GARY,GARY2 I '$D(REDUX) S REDUX="" D XPATH^C0CMXML(1,"/","GIDX","GARY",,REDUX) D INVERT("GIDX2","GIDX") ;MAKE ARRAY TO LOOK UP XPATH BY NODE N ZI,ZD S ZI="" F S ZI=$O(@C0CDOM@(ZI)) Q:ZI="" D ; FOR EACH NODE IN THE DOM . K ZD ;FOR DATA . D DATA^C0CMXML("ZD",ZI) ;SEE IF THERE IS DATA FOR THIS NODE . ;I $D(ZD(1)) D ; IF YES . I $$FIRST^C0CMXML(ZI)=0 D ; IF THERE ARE NO CHILDREN TO THIS NODE . . ;I ZI<3 B ;W !,ZD(1) . . K @C0CDOM@(ZI,"T") ; KILL THE DATA . . N ZXPATH . . S ZXPATH=$G(GIDX2(ZI)) ;FIND AN XPATH FOR THIS NODE . . S @C0CDOM@(ZI,"T",1)="@@"_ZXPATH_"@@" . . I ZXPATH'="" S @OUTIDX@(ZXPATH)="" ; PASS BACK XPATH USED IN IDX D OUTXML^C0CMXML(OUTT,C0CDOCID) Q ; INVERT(OUTX,INX) ;INVERTS AN XPATH INDEX RETURNING @OUTX@(x)=XPath from ; @INX@(XPath)=x N ZI S ZI="" F S ZI=$O(@INX@(ZI)) Q:ZI="" D ;FOR EACH XPATH IN THE INPUT . S @OUTX@(@INX@(ZI))=ZI ; SET INVERTED ENTRY Q ; DEMUX(OUTX,INX) ;PARSES XPATH PASSED BY VALUE IN INX TO REMOVE [x] MULTIPLES ; RETURNS OUTX: MULTIPLE^SUBMULTIPLE^XPATH N ZX,ZY,ZZ,ZZ1,ZMULT,ZSUB S (ZMULT,ZSUB)="" S ZX=$P(INX,"[",2) I ZX'="" D ; THERE IS A [x] MULTIPLE . S ZY=$P(INX,"[",1) ;FIRST PART OF XPATH . S ZMULT=$P(ZX,"]",1) ; NUMBER OF THE MULTIPLE . S ZX=ZY_$P(ZX,"]",2) ; REST OF THE XPATH . I $P(ZX,"[",2)'="" D ; A SUB MULTIPLE EXISTS . . S ZZ=$P(ZX,"[",1) ; FIRST PART OF XPATH . . S ZX=$P(ZX,"[",2) ; DELETE THE [ . . S ZSUB=$P(ZX,"]",1) ; NUMBER OF THE SUBMULTIPLE . . S ZX=ZZ_$P(ZX,"]",2) ; REST OF THE XPATH E S ZX=INX ;NO MULTIPLE HERE S @OUTX=ZMULT_"^"_ZSUB_"^"_ZX ;RETURN MULTIPLE^SUBMULTIPLE^XPATH Q ; DEMUXARY(OARY,IARY,DEPTH) ;CONVERT AN XPATH ARRAY PASSED AS IARY TO ; FORMAT @OARY@(x,variablename) where x is the first multiple ; IF DEPTH=2, THE LAST 2 PARTS OF THE XPATH WILL BE USED N ZI,ZJ,ZK,ZL,ZM S ZI="" F S ZI=$O(@IARY@(ZI)) Q:ZI="" D ; . D DEMUX^C0CMXP("ZJ",ZI) . S ZK=$P(ZJ,"^",3) . S ZM=$RE($P($RE(ZK),"/",1)) . I $G(DEPTH)=2 D ;LAST TWO PARTS OF XPATH USED FOR THE VARIABLE NAME . . S ZM=$RE($P($RE(ZK),"/",2))_ZM . S ZL=$P(ZJ,"^",1) . I ZL="" S ZL=1 . I $D(@OARY@(ZL,ZM)) D ;IT'S A DUP . . S @OARY@(ZL,ZM_"[2]")=@IARY@(ZI) . E S @OARY@(ZL,ZM)=@IARY@(ZI) Q ; DEMUX2(OARY,IARY,DEPTH) ;CONVERT AN XPATH ARRAY PASSED AS IARY TO ; FORMAT @OARY@(x,variablename) where x is the first multiple ; IF DEPTH=2, THE LAST 2 PARTS OF THE XPATH WILL BE USED N ZI,ZJ,ZK,ZL,ZM S ZI="" F S ZI=$O(@IARY@(ZI)) Q:ZI="" D ; . D DEMUX^C0CMXP("ZJ",ZI) . S ZK=$P(ZJ,"^",3) . S ZM=$RE($P($RE(ZK),"/",1)) . I $G(DEPTH)=2 D ;LAST TWO PARTS OF XPATH USED FOR THE VARIABLE NAME . . S ZM=$RE($P($RE(ZK),"/",2))_"."_ZM . S ZL=$P(ZJ,"^",1) . I ZL="" S ZL=1 . I $D(@OARY@(ZL,ZM)) D ;IT'S A DUP . . S @OARY@(ZL,ZM_"[2]")=@IARY@(ZI) . E S @OARY@(ZL,ZM)=@IARY@(ZI) Q ; DEMUXXP1(OARY,IARY) ;IARY IS INCOMING XPATH ARRAY ; BOTH IARY AND OARY ARE PASSED BY NAME ; RETURNS A SIMPLE XPATH ARRAY WITHOUT MULTIPLES. DUPLICATES ARE REMOVED N ZI,ZJ,ZK S ZI="" F S ZI=$O(@IARY@(ZI)) Q:ZI="" D ; FOR EACH XPATH IN IARY . D DEMUX^C0CMXP("ZJ",ZI) . S ZK=$P(ZJ,"^",3) ;THE XPATH . S @OARY@(ZK)=@IARY@(ZI) ;THE RESULT. DUPLICATES WILL NOT SHOW . ; CAUTION, IF THERE ARE MULTIPLES, ONLY THE DATA FOR THE LAST . ; MULTIPLE WILL BE INCLUDED IN THE OUTPUT ARRAY, ASSIGNED TO THE . ; COMMON XPATH Q ; DEMUXXP2(OARY,IARY) ; IARY AND OARY ARE PASSED BY NAME ; IARY IS AN XPATH ARRAY THAT MAY CONTAIN MULTIPLES ; OARY IS THE OUTPUT ARRAY WHERE MULTIPLES ARE RETURNED IN THE FORM ; @OARY@(x,Xpath)=data or @OARY@(x,y,Xpath)=data WHERE x AND y ARE ; THE MULTIPLES AND Xpath IS THE BASE XPATH WITHOUT [x] AND [y] ; N ZI,ZJ,ZK,ZX,ZY,ZP S ZI="" F S ZI=$O(@IARY@(ZI)) Q:ZI="" D ; FOR EACH INPUT XPATH . D DEMUX("ZJ",ZI) ; PULL OUT THE MULTIPLES . S ZX=$P(ZJ,"^",1) ;x . S ZY=$P(ZJ,"^",2) ;y . S ZP=$P(ZJ,"^",3) ;Xpath . I ZX="" S ZX=1 ; NO MULTIPLE WILL STORE IN x=1 . I ZY'="" D ;IS THERE A y? . . S @OARY@(ZX,ZY,ZP)=@IARY@(ZI) . E D ;NO y . . S @OARY@(ZX,ZP)=@IARY@(ZI) Q ; UPDIE ; INTERNAL ROUTINE TO CALL UPDATE^DIE AND CHECK FOR ERRORS K ZERR D CLEAN^DILF D UPDATE^DIE("","C0CFDA","","ZERR") I $D(ZERR) D ; . W "ERROR",! . ZWR ZERR . B K C0CFDA Q ;