Changeset 1333 for ccr/branches/ohum


Ignore:
Timestamp:
Jan 4, 2012, 12:05:49 AM (13 years ago)
Author:
George Lilly
Message:

ohum new version

Location:
ccr/branches/ohum/p
Files:
70 edited

Legend:

Unmodified
Added
Removed
  • ccr/branches/ohum/p/C0CACTOR.m

    r1332 r1333  
    11C0CACTOR         ; CCDCCR/GPL - CCR/CCD PROCESSING FOR ACTORS ; 7/3/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CALERT.m

    r1332 r1333  
    11C0CALERT         ; CCDCCR/CKU/GPL - CCR/CCD PROCESSING FOR ALERTS ; 09/11/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota and others.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CBAT.m

    r1332 r1333  
    11C0CBAT    ; CCDCCR/GPL - CCR Batch utilities; 4/21/09
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CCCD.m

    r1332 r1333  
    11C0CCCD    ; CCDCCR/GPL - CCD MAIN PROCESSING; 6/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CCCD1.m

    r1332 r1333  
    11C0CCCD1 ; CCDCCR/GPL - CCD TEMPLATE AND ACCESS ROUTINES; 6/7/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CCCR.m

    r1332 r1333  
    11C0CCCR    ; CCDCCR/GPL - CCR MAIN PROCESSING; 6/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
     
    2626        I Y<1 Q  ; EXIT
    2727        S DFN=$P(Y,U,1) ; SET THE PATIENT
     28        ;OHUM/RUT 3120102 To take inputs from user for date limits and notes
     29        D ^C0CVALID
     30        ;OHUM/RUT
    2831        D XPAT(DFN) ; EXPORT TO A FILE
    2932        Q
     
    168171        ;D PUSH^C0CXPATH(TAB,"EXTRACT;C0CENC;//ContinuityOfCareRecord/Body/Encounters;^TMP(""C0CCCR"",$J,DFN,""ENCOUNTERS"")")
    169172        ; gpl - turned off Encounters for Certification
     173        ;OHUM/RUT 3111228 Condition for Notes ; It should be included or not
     174        I ^TMP("C0CCCR","TIULIMIT")'="" D PUSH^C0CXPATH(TAB,"EXTRACT;C0CENC;//ContinuityOfCareRecord/Body/Encounters;^TMP(""C0CCCR"",$J,DFN,""ENCOUNTERS"")")
     175        ;OHUM/RUT
    170176        Q
    171177        ;
  • ccr/branches/ohum/p/C0CCCR0.m

    r1332 r1333  
    11C0CCCR0 ; CCDCCR/GPL - CCR TEMPLATE AND ACCESS ROUTINES; 5/31/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CCMT.m

    r1332 r1333  
    11C0CCMT   ; CCDCCR/GPL - CCR/CCD PROCESSING FOR COMMENTS ; 05/21/10
    2         ;;1.0;C0C;;May 21, 2010;Build 38
     2        ;;1.0;C0C;;May 21, 2010;Build 1
    33        ;Copyright 2010 George Lilly, University of Minnesota and others.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CCPT.m

    r1332 r1333  
    11C0CCPT  ;;BSL;RETURN CPT DATA;
    2         ;Sequence Managers Software GPL;;;;;Build 38
     2        ;Sequence Managers Software GPL;;;;;Build 1
    33        ;Copied into C0C namespace from SQMCPT with permission from
    44        ;Brian Lord - and with our thanks. gpl 01/20/2010
     
    1919               ;NOW DELETE ANY NOTES THAT DON'T FALL INTO DATE RANGE
    2020               ;GET DATE OF NOTE
     21        ;OHUM/RUT 3111228 Date Range for Notes
     22               S STDT=^TMP("C0CCCR","TIULIMIT") D NOW^%DTC S ENDDT=X
     23               ;OHUM/RUT
    2124               S Z=""
    2225               F  S Z=$O(NOTE(Z)) Q:Z=""  D
  • ccr/branches/ohum/p/C0CDIC.m

    r1332 r1333  
    1 C0CDIC   ; CCDCCR/GPL - CCR Dictionary utilities; 6/1/08
    2  ;;0.1;CCDCCR;nopatch;noreleasedate
    3  ;Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  W "This is the CCR Dictionary Utility Library ",!
    21  W !
    22  Q
    23  ;
    24 DIC2CSV ;OUTPUT THE CCR DICTIONARY TO A CSV FILE
    25  ;
    26  N ZI
    27  S ZI=""
    28  S G1=$NA(^TMP($J,"C0CCSV",1))
    29  S G1A=$NA(@G1@("V"))
    30  S G2=$NA(^TMP($J,"C0CCSV",2))
    31  D GETN2^C0CRNF(G1,170) ; GET THE MATRIX
    32  F  S ZI=$O(@G1A@(ZI)) Q:ZI=""  D  ;FOR EACH ROW IN THE MATRIX
    33  . I $G(@G1A@(ZI,"MAPPING METHOD",1))'="" D  ;
    34  . . W @G1A@(ZI,"MAPPING METHOD",1),!
    35  . . ;K @G1A@(ZI,"MAPPING METHOD")
    36  . ;W !,ZI,$G(@G1A@(ZI,"MAPPING METHOD",1))
    37  D RNF2CSV^C0CRNF(G2,G1,"VN") ; PREPARE THE CVS FILE
    38  K @G1
    39  D FILEOUT^C0CRNF(G2,"FILE_"_170_".csv")
    40  K @G2
    41  Q
    42  ;
    43 GVARS(C0CVARS,C0CT) ; Get the CCR variables from the CCR template
    44  ; and return them in C0CVARS, which is passed by name
    45  ; FIRST PIECE OF C0CVARS(x) IS THE VARIABLE NAME, SECOND PIECE
    46  ; IS THE LINE NUMBER OF THE VARIABLE IN THE TEMPLATE
    47  ; C0CT IS RETURNED AS THE CCR TEMPLATE
    48  N C0CTVARS ; ARRAY FOR THE TEMPLATE AND ARRAY FOR THE VARS
    49  D LOAD^GPLCCR0(C0CT) ; LOAD THE CCR TEMPLATE
    50  D XVARS^GPLXPATH("C0CTVARS",C0CT) ; PULL OUT THE VARS
    51  N C0CI,C0CX
    52  S @C0CVARS@(0)=C0CTVARS(0) ; SAME COUNT
    53  F C0CI=1:1:C0CTVARS(0) D  ; FOR EVERY LINE IN THE ARRAY
    54  . S C0CX=C0CTVARS(C0CI) ; THE VARIABLE - 3 PIECES, FIRST ONE NULL
    55  . S @C0CVARS@(C0CI)=$P(C0CX,"^",2)_"^"_$P(C0CX,"^",3) ; VAR NAME^LINE NUMBER
    56  ;D PARY^GPLXPATH("C0CVARS")
    57  Q
    58  ;
    59 GXPATH(C0CPVARS,C0CPT) ; LOAD THE CCR TEMPLATE INTO C0CPT, PULL OUT VARIABLES
    60  ; AND THE XPATH TO THE VARIABLES INTO C0CPVARS
    61  ; BY INDEXING THE TEMPLATE C0CT AND MATCHING THE XPATH TO THE VARIABLE
    62  ; BOTH ARE PASSED BY NAME
    63  ; C0CPVARS(x) IS VAR^LINENUM^XPATH SORTED BY LINENUM
    64  ; C0CPVARS(0) IS NUMBER OF VARIABLES
    65  ; C0CPT(0) IS NUMBER OF LINES IN THE TEMPLATE
    66  D GVARS(C0CPVARS,C0CPT) ; GET THE VARIABLES AND LINE NUMBERS
    67  ;N C0CTVARS ; HASH TABLE FOR VARIABLE BY LINE NUMBER
    68  D HASHV ; PUT THE VARIABLES IN A LINE NUMBER HASH FOR MATCHING TO XPATHS
    69  ; NOW GO GET THE XPATH INDEXES
    70  D INDEX^GPLXPATH(C0CPT) ; ADD THE XPATH INDEXES TO THE TEMPLATE ARRAY
    71  S C0CI="" ; GOING TO LOOP THROUGH THE WHOLE ARRAY LOOKING AT XPATHS
    72  F  S C0CI=$O(@C0CPT@(C0CI)) Q:C0CI=""  D  ; VISIT EVERY LINE
    73  . I +C0CI'=0 Q  ; SKIP EVERYTHING BUT THE XPATH INDEX
    74  . I C0CI=0 Q  ; SKIP THE ZERO NODE
    75  . S C0CX=@C0CPT@(C0CI) ; PULL OUT THE LINE NUMBERS X^Y
    76  . S C0CY=$P(C0CX,"^",1) ; STARTING LINE NUMBER
    77  . S C0CZ=$P(C0CX,"^",2) ; ENDING LINE NUMBER
    78  . I C0CY=C0CZ D  ; THIS IS AN XPATH END NODE, HAS A VARIABLE (WE HOPE)
    79  . . ; W "FOUND ",C0CI,!
    80  . . I $D(C0CTVARS(C0CY)) D  ; IF THERE IS A VARIABLE THERE
    81  . . . S $P(C0CTVARS(C0CY),"^",3)=C0CI ; INSERT THE XPATH FOR THE VAR
    82  D SORTV ; SORT THE ARRAY BY LINE NUMBER
    83  Q
    84  ;
    85 HASHV ; INTERNAL ROUTINE TO PUT VARIABLE NAMES IN A LINE NUMBER HASH
    86  ;N C0CI,C0CTVARS,C0CX,C0CY
    87  F C0CI=1:1:@C0CPVARS@(0) D  ; FOR THE ENTIRE ARRAY
    88  . S C0CX=$P(@C0CPVARS@(C0CI),"^",2) ; LINE NUMBER
    89  . S C0CY=$P(@C0CPVARS@(C0CI),"^",1) ; VARIABLE NAME
    90  . S C0CTVARS(C0CX)=C0CY ; BUILD HASH OF VARIABLES BY LINE NUMBER
    91  Q
    92  ;
    93 SORTV ; INTERNAL ROUTINE TO OUTPUT VARIABLES (AND XPATHS) IN LINE NUMBER ORDER
    94  ;N C0CV2 ; SCRACTH SPACE FOR BUILDING SORTED ARRAY
    95  S C0CI="" ;
    96  F  S C0CI=$O(C0CTVARS(C0CI)) Q:C0CI=""  D  ; BY LINE NUMBER
    97  . S C0CX=C0CTVARS(C0CI) ;VARIABLE NAME
    98  . S $P(C0CX,"^",2)=C0CI ; LINE NUMBER IS SECOND PIECE
    99  . D PUSH^GPLXPATH("C0C2",C0CX) ; PUT ONTO ARRAY
    100  K @C0CPVARS
    101  M @C0CPVARS=C0C2
    102  Q
    103  ;
    104 LOAD ; LOAD VARIABLE NAMES AND XPATH IN ^C0CDIC(170
    105  ; INITIAL LOAD OF THE CCR DICTIONARY
    106  ;
    107  N C0CDIC,C0CARY,C0CXML,C0CFDA,C0CI
    108  S C0CDIC="^C0CDIC(170," ; ROOT OF THE CCR DICTIONARY
    109  D GXPATH("C0CARY","C0CXML") ; FETCH THE VARIABLES AND XPATH INTO C0CARY
    110  ; C0CXML WILL CONTAIN THE TEMPLATE - NOT NEEDED FOR LOAD
    111  D PARY^GPLXPATH("C0CARY") ;TEST
    112  F C0CI=1:1:C0CARY(0) D  ; LOAD EACH VARIABLE
    113  . S C0CFDA(170,"+"_C0CI_",",.01)=$P(C0CARY(C0CI),"^",1) ; VAR NAME
    114  . S C0CFDA(170,"+"_C0CI_",",2)=$P(C0CARY(C0CI),"^",3) ; XPATH
    115  . D UPDATE^DIE("","C0CFDA")
    116  . I $D(^TMP("DIERR",$J)) U $P BREAK
    117  . W "LOADING:",C0CI," ",C0CARY(C0CI),!
    118  Q
    119  ;
    120 INIT ; INITIALIZE CCR DICTIONARY BASED ON VARIABLE NAMES
    121  ;
    122  ; CHEAT SHEET FOR VARIABLE NAMES IN ^C0CDIC(170.xx,
    123  ; THIS IS WHAT WILL BE IN C0CA FOR EACH DICTIONARY ENTRY
    124  ;G1("CODING")="170^8"
    125  ;G1("DATA ELEMENT")="170^7"
    126  ;G1("DESCRIPTION")="170^3"
    127  ;G1("ID")="170^1"
    128  ;G1("M","170^8","CODING")="170.08^.01"
    129  ;G1("MAPPING METHOD")="170.08^1"
    130  ;G1("SECTION")="170^10"
    131  ;G1("SOURCE")="170^4"
    132  ;G1("STATUS")="170^9"
    133  ;G1("TYPE")="170^6"
    134  ;G1("VARIABLE")="170^.01"
    135  ;G1("XPATH")="170^2"
    136  ;
    137  N C0CZA,C0CZX,C0CN,C0CSTAT
    138  S C0CZX=0
    139  S C0CSTAT=0 ; INIT STATUS SET FLAG
    140  F  S C0CZX=$O(^C0CDIC(170,C0CZX)) Q:+C0CZX=0  D  ; FOR EACH DICT ENTRY
    141  . ;W C0CZX,!
    142  . K C0CA,C0CN ; CLEAR OUT THE LAST ONE
    143  . D GETN1^C0CRNF("C0CA",170,C0CZX,"","ALL") ; GET VARIABLE HASH
    144  . ;ZWR C0CA B ;
    145  . S C0CN=$$ZVALUE("VARIABLE") ;NAME OF THE VARIABLE
    146  . W "VARIABLE: ",C0CN,!
    147  . I $E(C0CN,1,5)="ACTOR" D SETFDA("SECTION","ACTORS") ;
    148  . I $E(C0CN,1,6)="SOCIAL" D  ;
    149  . . D SETFDA("SECTION","SOC") ;
    150  . . D SETFDA("STATUS","X") ;SOCIAL HISTORY NOT IMPLEMENTED
    151  . . S C0CSTAT=1
    152  . I $E(C0CN,1,6)="FAMILY" D  ;
    153  . . D SETFDA("SECTION","FAM") ;
    154  . . D SETFDA("STATUS","X") ;FAMILY HISTORY NOT IMPLEMENTED
    155  . . S C0CSTAT=1
    156  . ;D SETFDA("TYPE","") ;CORRECT FOR TYPE ERRORS
    157  . I $E(C0CN,1,5)="ALERT" D SETFDA("SECTION","ALERTS")
    158  . I $E(C0CN,1,5)="VITAL" D SETFDA("SECTION","VITALS")
    159  . I $E(C0CN,1,7)="PROBLEM" D SETFDA("SECTION","PROBLEMS")
    160  . I $E(C0CN,1,10)="RESULTTEST" D SETFDA("SECTION","TEST")
    161  . E  I $E(C0CN,1,6)="RESULT" D SETFDA("SECTION","LABS")
    162  . I C0CN["CODEVALUE" D SETFDA("TYPE","CD") ;CODES
    163  . I C0CN["CODEVERSION" D SETFDA("TYPE","CV") ; CODE VERSION
    164  . I C0CN["CODINGSYSTEM" D SETFDA("TYPE","CS") ;CODING SYSTEM
    165  . I $$ZVALUE("STATUS")=""!'C0CSTAT D SETFDA("STATUS","N") ;BLANK STATUS TO N
    166  . I $$ZVALUE("XPATH")["/Medication/Directions/" D  ; MEDS DIRECTIONS VAR
    167  . . D SETFDA("SECTION","DIR") ; SPECIAL SECTION FOR DIRECTIONS
    168  . E  I $$ZVALUE("XPATH")["/Medications/Medication/" D  ; ALL OTHER MEDS
    169  . . D SETFDA("SECTION","MEDS") ; A MEDS VAR
    170  . I $E(C0CN,($L(C0CN)-1),$L(C0CN))="ID" D SETFDA("TYPE","ID") ;CATCH THE IDS
    171  . I C0CN["DATETIME" D SETFDA("TYPE","DT") ; DATE/TIME VARIABLE
    172  . W "VARIABLE: ",C0CZX," ",C0CA("VARIABLE"),!
    173  . ;ZWR C0CFDA
    174  . I $D(C0CFDA) D  ; WE HAVE CHANGES ON THIS VARIABLE
    175  . . ;ZWR C0CFDA
    176  . . D UPDATE^DIE("","C0CFDA(C0CZX)")
    177  . . I $D(^TMP("DIERR",$J)) U $P BREAK
    178  . . D CLEAN^DILF ; CLEAN UP
    179  . ;ZWR C0CFDA
    180  Q
    181  ;
    182 SETFDA(C0CSN,C0CSV) ; INTERNAL ROUTINE TO MAKE AN FDA ENTRY FOR FIELD C0CSN
    183  ; TO SET TO VALUE C0CSV.
    184  ; C0CFDA,C0CA,C0CZX ARE ASSUMED FROM THE CALLING ROUTINE
    185  ; C0CSN,C0CSV ARE PASSED BY VALUE
    186  ;
    187  N C0CSI,C0CSJ
    188  S C0CSI=$$ZFILE(C0CSN,"C0CA") ; FILE NUMBER
    189  S C0CSJ=$$ZFIELD(C0CSN,"C0CA") ; FIELD NUMBER
    190  S C0CFDA(C0CZX,C0CSI,C0CZX_",",C0CSJ)=C0CSV
    191  Q
    192 ZFILE(ZFN,ZTAB) ; EXTRINSIC TO RETURN FILE NUMBER FOR FIELD NAME PASSED
    193  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 1 OF C0CA(ZFN)
    194  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    195  I '$D(ZTAB) S ZTAB="C0CA"
    196  Q $P(@ZTAB@(ZFN),"^",1)
    197 ZFIELD(ZFN,ZTAB) ;EXTRINSIC TO RETURN FIELD NUMBER FOR FIELD NAME PASSED
    198  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 2 OF C0CA(ZFN)
    199  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    200  I '$D(ZTAB) S ZTAB="C0CA"
    201  Q $P(@ZTAB@(ZFN),"^",2)
    202 ZVALUE(ZFN,ZTAB) ;EXTRINSIC TO RETURN VALUE FOR FIELD NAME PASSED
    203  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF C0CA(ZFN)
    204  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    205  I '$D(ZTAB) S ZTAB="C0CA"
    206  Q $P(@ZTAB@(ZFN),"^",3)
    207  ;
     1C0CDIC    ; CCDCCR/GPL - CCR Dictionary utilities; 6/1/08
     2        ;;0.1;CCDCCR;nopatch;noreleasedate;Build 1
     3        ;Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        W "This is the CCR Dictionary Utility Library ",!
     21        W !
     22        Q
     23        ;
     24DIC2CSV ;OUTPUT THE CCR DICTIONARY TO A CSV FILE
     25        ;
     26        N ZI
     27        S ZI=""
     28        S G1=$NA(^TMP($J,"C0CCSV",1))
     29        S G1A=$NA(@G1@("V"))
     30        S G2=$NA(^TMP($J,"C0CCSV",2))
     31        D GETN2^C0CRNF(G1,170) ; GET THE MATRIX
     32        F  S ZI=$O(@G1A@(ZI)) Q:ZI=""  D  ;FOR EACH ROW IN THE MATRIX
     33        . I $G(@G1A@(ZI,"MAPPING METHOD",1))'="" D  ;
     34        . . W @G1A@(ZI,"MAPPING METHOD",1),!
     35        . . ;K @G1A@(ZI,"MAPPING METHOD")
     36        . ;W !,ZI,$G(@G1A@(ZI,"MAPPING METHOD",1))
     37        D RNF2CSV^C0CRNF(G2,G1,"VN") ; PREPARE THE CVS FILE
     38        K @G1
     39        D FILEOUT^C0CRNF(G2,"FILE_"_170_".csv")
     40        K @G2
     41        Q
     42        ;
     43GVARS(C0CVARS,C0CT)     ; Get the CCR variables from the CCR template
     44        ; and return them in C0CVARS, which is passed by name
     45        ; FIRST PIECE OF C0CVARS(x) IS THE VARIABLE NAME, SECOND PIECE
     46        ; IS THE LINE NUMBER OF THE VARIABLE IN THE TEMPLATE
     47        ; C0CT IS RETURNED AS THE CCR TEMPLATE
     48        N C0CTVARS ; ARRAY FOR THE TEMPLATE AND ARRAY FOR THE VARS
     49        D LOAD^GPLCCR0(C0CT) ; LOAD THE CCR TEMPLATE
     50        D XVARS^GPLXPATH("C0CTVARS",C0CT) ; PULL OUT THE VARS
     51        N C0CI,C0CX
     52        S @C0CVARS@(0)=C0CTVARS(0) ; SAME COUNT
     53        F C0CI=1:1:C0CTVARS(0) D  ; FOR EVERY LINE IN THE ARRAY
     54        . S C0CX=C0CTVARS(C0CI) ; THE VARIABLE - 3 PIECES, FIRST ONE NULL
     55        . S @C0CVARS@(C0CI)=$P(C0CX,"^",2)_"^"_$P(C0CX,"^",3) ; VAR NAME^LINE NUMBER
     56        ;D PARY^GPLXPATH("C0CVARS")
     57        Q
     58        ;
     59GXPATH(C0CPVARS,C0CPT)  ; LOAD THE CCR TEMPLATE INTO C0CPT, PULL OUT VARIABLES
     60        ; AND THE XPATH TO THE VARIABLES INTO C0CPVARS
     61        ; BY INDEXING THE TEMPLATE C0CT AND MATCHING THE XPATH TO THE VARIABLE
     62        ; BOTH ARE PASSED BY NAME
     63        ; C0CPVARS(x) IS VAR^LINENUM^XPATH SORTED BY LINENUM
     64        ; C0CPVARS(0) IS NUMBER OF VARIABLES
     65        ; C0CPT(0) IS NUMBER OF LINES IN THE TEMPLATE
     66        D GVARS(C0CPVARS,C0CPT) ; GET THE VARIABLES AND LINE NUMBERS
     67        ;N C0CTVARS ; HASH TABLE FOR VARIABLE BY LINE NUMBER
     68        D HASHV ; PUT THE VARIABLES IN A LINE NUMBER HASH FOR MATCHING TO XPATHS
     69        ; NOW GO GET THE XPATH INDEXES
     70        D INDEX^GPLXPATH(C0CPT) ; ADD THE XPATH INDEXES TO THE TEMPLATE ARRAY
     71        S C0CI="" ; GOING TO LOOP THROUGH THE WHOLE ARRAY LOOKING AT XPATHS
     72        F  S C0CI=$O(@C0CPT@(C0CI)) Q:C0CI=""  D  ; VISIT EVERY LINE
     73        . I +C0CI'=0 Q  ; SKIP EVERYTHING BUT THE XPATH INDEX
     74        . I C0CI=0 Q  ; SKIP THE ZERO NODE
     75        . S C0CX=@C0CPT@(C0CI) ; PULL OUT THE LINE NUMBERS X^Y
     76        . S C0CY=$P(C0CX,"^",1) ; STARTING LINE NUMBER
     77        . S C0CZ=$P(C0CX,"^",2) ; ENDING LINE NUMBER
     78        . I C0CY=C0CZ D  ; THIS IS AN XPATH END NODE, HAS A VARIABLE (WE HOPE)
     79        . . ; W "FOUND ",C0CI,!
     80        . . I $D(C0CTVARS(C0CY)) D  ; IF THERE IS A VARIABLE THERE
     81        . . . S $P(C0CTVARS(C0CY),"^",3)=C0CI ; INSERT THE XPATH FOR THE VAR
     82        D SORTV ; SORT THE ARRAY BY LINE NUMBER
     83        Q
     84        ;
     85HASHV   ; INTERNAL ROUTINE TO PUT VARIABLE NAMES IN A LINE NUMBER HASH
     86        ;N C0CI,C0CTVARS,C0CX,C0CY
     87        F C0CI=1:1:@C0CPVARS@(0) D  ; FOR THE ENTIRE ARRAY
     88        . S C0CX=$P(@C0CPVARS@(C0CI),"^",2) ; LINE NUMBER
     89        . S C0CY=$P(@C0CPVARS@(C0CI),"^",1) ; VARIABLE NAME
     90        . S C0CTVARS(C0CX)=C0CY ; BUILD HASH OF VARIABLES BY LINE NUMBER
     91        Q
     92        ;
     93SORTV   ; INTERNAL ROUTINE TO OUTPUT VARIABLES (AND XPATHS) IN LINE NUMBER ORDER
     94        ;N C0CV2 ; SCRACTH SPACE FOR BUILDING SORTED ARRAY
     95        S C0CI="" ;
     96        F  S C0CI=$O(C0CTVARS(C0CI)) Q:C0CI=""  D  ; BY LINE NUMBER
     97        . S C0CX=C0CTVARS(C0CI) ;VARIABLE NAME
     98        . S $P(C0CX,"^",2)=C0CI ; LINE NUMBER IS SECOND PIECE
     99        . D PUSH^GPLXPATH("C0C2",C0CX) ; PUT ONTO ARRAY
     100        K @C0CPVARS
     101        M @C0CPVARS=C0C2
     102        Q
     103        ;
     104LOAD    ; LOAD VARIABLE NAMES AND XPATH IN ^C0CDIC(170
     105        ; INITIAL LOAD OF THE CCR DICTIONARY
     106        ;
     107        N C0CDIC,C0CARY,C0CXML,C0CFDA,C0CI
     108        S C0CDIC="^C0CDIC(170," ; ROOT OF THE CCR DICTIONARY
     109        D GXPATH("C0CARY","C0CXML") ; FETCH THE VARIABLES AND XPATH INTO C0CARY
     110        ; C0CXML WILL CONTAIN THE TEMPLATE - NOT NEEDED FOR LOAD
     111        D PARY^GPLXPATH("C0CARY") ;TEST
     112        F C0CI=1:1:C0CARY(0) D  ; LOAD EACH VARIABLE
     113        . S C0CFDA(170,"+"_C0CI_",",.01)=$P(C0CARY(C0CI),"^",1) ; VAR NAME
     114        . S C0CFDA(170,"+"_C0CI_",",2)=$P(C0CARY(C0CI),"^",3) ; XPATH
     115        . D UPDATE^DIE("","C0CFDA")
     116        . I $D(^TMP("DIERR",$J)) U $P BREAK
     117        . W "LOADING:",C0CI," ",C0CARY(C0CI),!
     118        Q
     119        ;
     120INIT    ; INITIALIZE CCR DICTIONARY BASED ON VARIABLE NAMES
     121        ;
     122        ; CHEAT SHEET FOR VARIABLE NAMES IN ^C0CDIC(170.xx,
     123        ; THIS IS WHAT WILL BE IN C0CA FOR EACH DICTIONARY ENTRY
     124        ;G1("CODING")="170^8"
     125        ;G1("DATA ELEMENT")="170^7"
     126        ;G1("DESCRIPTION")="170^3"
     127        ;G1("ID")="170^1"
     128        ;G1("M","170^8","CODING")="170.08^.01"
     129        ;G1("MAPPING METHOD")="170.08^1"
     130        ;G1("SECTION")="170^10"
     131        ;G1("SOURCE")="170^4"
     132        ;G1("STATUS")="170^9"
     133        ;G1("TYPE")="170^6"
     134        ;G1("VARIABLE")="170^.01"
     135        ;G1("XPATH")="170^2"
     136        ;
     137        N C0CZA,C0CZX,C0CN,C0CSTAT
     138        S C0CZX=0
     139        S C0CSTAT=0 ; INIT STATUS SET FLAG
     140        F  S C0CZX=$O(^C0CDIC(170,C0CZX)) Q:+C0CZX=0  D  ; FOR EACH DICT ENTRY
     141        . ;W C0CZX,!
     142        . K C0CA,C0CN ; CLEAR OUT THE LAST ONE
     143        . D GETN1^C0CRNF("C0CA",170,C0CZX,"","ALL") ; GET VARIABLE HASH
     144        . ;ZWR C0CA B ;
     145        . S C0CN=$$ZVALUE("VARIABLE") ;NAME OF THE VARIABLE
     146        . W "VARIABLE: ",C0CN,!
     147        . I $E(C0CN,1,5)="ACTOR" D SETFDA("SECTION","ACTORS") ;
     148        . I $E(C0CN,1,6)="SOCIAL" D  ;
     149        . . D SETFDA("SECTION","SOC") ;
     150        . . D SETFDA("STATUS","X") ;SOCIAL HISTORY NOT IMPLEMENTED
     151        . . S C0CSTAT=1
     152        . I $E(C0CN,1,6)="FAMILY" D  ;
     153        . . D SETFDA("SECTION","FAM") ;
     154        . . D SETFDA("STATUS","X") ;FAMILY HISTORY NOT IMPLEMENTED
     155        . . S C0CSTAT=1
     156        . ;D SETFDA("TYPE","") ;CORRECT FOR TYPE ERRORS
     157        . I $E(C0CN,1,5)="ALERT" D SETFDA("SECTION","ALERTS")
     158        . I $E(C0CN,1,5)="VITAL" D SETFDA("SECTION","VITALS")
     159        . I $E(C0CN,1,7)="PROBLEM" D SETFDA("SECTION","PROBLEMS")
     160        . I $E(C0CN,1,10)="RESULTTEST" D SETFDA("SECTION","TEST")
     161        . E  I $E(C0CN,1,6)="RESULT" D SETFDA("SECTION","LABS")
     162        . I C0CN["CODEVALUE" D SETFDA("TYPE","CD") ;CODES
     163        . I C0CN["CODEVERSION" D SETFDA("TYPE","CV") ; CODE VERSION
     164        . I C0CN["CODINGSYSTEM" D SETFDA("TYPE","CS") ;CODING SYSTEM
     165        . I $$ZVALUE("STATUS")=""!'C0CSTAT D SETFDA("STATUS","N") ;BLANK STATUS TO N
     166        . I $$ZVALUE("XPATH")["/Medication/Directions/" D  ; MEDS DIRECTIONS VAR
     167        . . D SETFDA("SECTION","DIR") ; SPECIAL SECTION FOR DIRECTIONS
     168        . E  I $$ZVALUE("XPATH")["/Medications/Medication/" D  ; ALL OTHER MEDS
     169        . . D SETFDA("SECTION","MEDS") ; A MEDS VAR
     170        . I $E(C0CN,($L(C0CN)-1),$L(C0CN))="ID" D SETFDA("TYPE","ID") ;CATCH THE IDS
     171        . I C0CN["DATETIME" D SETFDA("TYPE","DT") ; DATE/TIME VARIABLE
     172        . W "VARIABLE: ",C0CZX," ",C0CA("VARIABLE"),!
     173        . ;ZWR C0CFDA
     174        . I $D(C0CFDA) D  ; WE HAVE CHANGES ON THIS VARIABLE
     175        . . ;ZWR C0CFDA
     176        . . D UPDATE^DIE("","C0CFDA(C0CZX)")
     177        . . I $D(^TMP("DIERR",$J)) U $P BREAK
     178        . . D CLEAN^DILF ; CLEAN UP
     179        . ;ZWR C0CFDA
     180        Q
     181        ;
     182SETFDA(C0CSN,C0CSV)     ; INTERNAL ROUTINE TO MAKE AN FDA ENTRY FOR FIELD C0CSN
     183        ; TO SET TO VALUE C0CSV.
     184        ; C0CFDA,C0CA,C0CZX ARE ASSUMED FROM THE CALLING ROUTINE
     185        ; C0CSN,C0CSV ARE PASSED BY VALUE
     186        ;
     187        N C0CSI,C0CSJ
     188        S C0CSI=$$ZFILE(C0CSN,"C0CA") ; FILE NUMBER
     189        S C0CSJ=$$ZFIELD(C0CSN,"C0CA") ; FIELD NUMBER
     190        S C0CFDA(C0CZX,C0CSI,C0CZX_",",C0CSJ)=C0CSV
     191        Q
     192ZFILE(ZFN,ZTAB) ; EXTRINSIC TO RETURN FILE NUMBER FOR FIELD NAME PASSED
     193        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 1 OF C0CA(ZFN)
     194        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     195        I '$D(ZTAB) S ZTAB="C0CA"
     196        Q $P(@ZTAB@(ZFN),"^",1)
     197ZFIELD(ZFN,ZTAB)        ;EXTRINSIC TO RETURN FIELD NUMBER FOR FIELD NAME PASSED
     198        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 2 OF C0CA(ZFN)
     199        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     200        I '$D(ZTAB) S ZTAB="C0CA"
     201        Q $P(@ZTAB@(ZFN),"^",2)
     202ZVALUE(ZFN,ZTAB)        ;EXTRINSIC TO RETURN VALUE FOR FIELD NAME PASSED
     203        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF C0CA(ZFN)
     204        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     205        I '$D(ZTAB) S ZTAB="C0CA"
     206        Q $P(@ZTAB@(ZFN),"^",3)
     207        ;
  • ccr/branches/ohum/p/C0CDOM.m

    r1332 r1333  
    11C0CDOM    ; GPL - DOM PROCESSING ROUTINES ;6/6/11  17:05
    2  ;;0.1;C0C;nopatch;noreleasedate;Build 38
    3  ;Copyright 2011 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  Q
    21  ;
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        ;Copyright 2011 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        Q
     21        ;
    2222DOMO(ZOID,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; RECURSIVE ROUTINE TO POPULATE
    23  ; THE XPATH INDEX ZXIDX, PASSED BY NAME
    24  ; THE XPATH ARRAY XPARY, PASSED BY NAME
    25  ; ZOID IS THE STARTING OID
    26  ; ZPATH IS THE STARTING XPATH, USUALLY "/"
    27  ; ZNUM IS THE MULTIPLE NUMBER [x], USUALLY NULL WHEN ON THE TOP NODE
    28  ; ZREDUX IS THE XPATH REDUCTION STRING, TAKEN OUT OF EACH XPATH IF PRESENT
    29  I $G(ZREDUX)="" S ZREDUX=""
    30  N NEWPATH,NARY ; NEWPATH IS AN XPATH NARY IS AN NHIN MUMPS ARRAY
    31  N NEWNUM S NEWNUM=""
    32  I $G(ZNUM)>0 S NEWNUM="["_ZNUM_"]"
    33  S NEWPATH=ZPATH_"/"_$$TAG(ZOID)_NEWNUM ; CREATE THE XPATH FOR THIS NODE
    34  I $G(ZREDUX)'="" D  ; REDUX PROVIDED?
    35  . N GT S GT=$P(NEWPATH,ZREDUX,2)
    36  . I GT'="" S NEWPATH=GT
    37  S @ZXIDX@(NEWPATH)=ZOID ; ADD THE XPATH FOR THIS NODE TO THE XPATH INDEX
    38  N GA D ATT("GA",ZOID) ; GET ATTRIBUTES FOR THIS NODE
    39  I $D(GA) D  ; PROCESS THE ATTRIBUTES
    40  . N ZI S ZI=""
    41  . F  S ZI=$O(GA(ZI)) Q:ZI=""  D  ; FOR EACH ATTRIBUTE
    42  . . N ZP S ZP=NEWPATH_"@"_ZI ; PATH FOR ATTRIBUTE
    43  . . S @ZXPARY@(ZP)=GA(ZI) ; ADD THE ATTRIBUTE XPATH TO THE XP ARRAY
    44  . . I GA(ZI)'="" D ADDNARY(ZP,GA(ZI)) ; ADD THE NHIN ARRAY VALUE
    45  N GD D DATA("GD",ZOID) ; SEE IF THERE IS DATA FOR THIS NODE
    46  I $D(GD(2)) D  ;
    47  . M @ZXPARY@(NEWPATH)=GD ; IF MULITPLE DATA MERGE TO THE ARRAY
    48  E  I $D(GD(1)) D  ;
    49  . S @ZXPARY@(NEWPATH)=GD(1) ; IF SINGLE VALUE, ADD TO ARRAY
    50  . I GD(1)'="" D ADDNARY(NEWPATH,GD(1)) ; ADD TO NHIN ARRAY
    51  N ZFRST S ZFRST=$$FIRST(ZOID) ; SET FIRST CHILD
    52  I ZFRST'=0 D  ; THERE IS A CHILD
    53  . N ZNUM
    54  . N ZMULT S ZMULT=$$ISMULT(ZFRST) ; IS FIRST CHILD A MULTIPLE
    55  . D DOMO(ZFRST,NEWPATH,ZNARY,ZXIDX,ZXPARY,$S(ZMULT:1,1:""),ZREDUX) ; THE CHILD
    56  N GNXT S GNXT=$$NXTSIB(ZOID)
    57  I $$TAG(GNXT)'=$$TAG(ZOID) S ZNUM="" ; RESET COUNTING AFTER MULTIPLES
    58  I GNXT'=0 D  ;
    59  . N ZMULT S ZMULT=$$ISMULT(GNXT) ; IS THE SIBLING A MULTIPLE?
    60  . I (ZNUM="")&(ZMULT) D  ; SIBLING IS FIRST OF MULTIPLES
    61  . . N ZNUM S ZNUM=1 ;
    62  . . D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; DO NEXT SIB
    63  . E  D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; SIB
    64  Q
    65  ;
    66 ADDNARY(ZXP,ZVALUE) ; ADD AN NHIN ARRAY VALUE TO ZNARY
    67  ;
    68  ; IF ZATT=1 THE ARRAY IS ADDED AS ATTRIBUTES
    69  ;
    70  N ZZI,ZZJ,ZZN
    71  S ZZI=$P(ZXP,"/",1) ; FIRST PIECE OF XPATH ARRAY
    72  I ZZI="" Q  ; DON'T ADD THIS ONE .. PROBABLY THE //results NODE
    73  S ZZJ=$P(ZXP,ZZI_"/",2) ; REST OF XPATH ARRAY
    74  S ZZJ=$TR(ZZJ,"/",".") ; REPLACE / WITH .
    75  I ZZI'["]" D  ; A SINGLETON
    76  . S ZZN=1
    77  E  D  ; THERE IS AN [x] OCCURANCE
    78  . S ZZN=$P($P(ZZI,"[",2),"]",1) ; PULL OUT THE OCCURANCE
    79  . S ZZI=$P(ZZI,"[",1) ; TAKE OUT THE [X]
    80  I ZZJ'="" D  ; TIME TO ADD THE VALUE
    81  . S @ZNARY@(ZZI,ZZN,ZZJ)=ZVALUE
    82  Q
    83  ;
     23        ; THE XPATH INDEX ZXIDX, PASSED BY NAME
     24        ; THE XPATH ARRAY XPARY, PASSED BY NAME
     25        ; ZOID IS THE STARTING OID
     26        ; ZPATH IS THE STARTING XPATH, USUALLY "/"
     27        ; ZNUM IS THE MULTIPLE NUMBER [x], USUALLY NULL WHEN ON THE TOP NODE
     28        ; ZREDUX IS THE XPATH REDUCTION STRING, TAKEN OUT OF EACH XPATH IF PRESENT
     29        I $G(ZREDUX)="" S ZREDUX=""
     30        N NEWPATH,NARY ; NEWPATH IS AN XPATH NARY IS AN NHIN MUMPS ARRAY
     31        N NEWNUM S NEWNUM=""
     32        I $G(ZNUM)>0 S NEWNUM="["_ZNUM_"]"
     33        S NEWPATH=ZPATH_"/"_$$TAG(ZOID)_NEWNUM ; CREATE THE XPATH FOR THIS NODE
     34        I $G(ZREDUX)'="" D  ; REDUX PROVIDED?
     35        . N GT S GT=$P(NEWPATH,ZREDUX,2)
     36        . I GT'="" S NEWPATH=GT
     37        S @ZXIDX@(NEWPATH)=ZOID ; ADD THE XPATH FOR THIS NODE TO THE XPATH INDEX
     38        N GA D ATT("GA",ZOID) ; GET ATTRIBUTES FOR THIS NODE
     39        I $D(GA) D  ; PROCESS THE ATTRIBUTES
     40        . N ZI S ZI=""
     41        . F  S ZI=$O(GA(ZI)) Q:ZI=""  D  ; FOR EACH ATTRIBUTE
     42        . . N ZP S ZP=NEWPATH_"@"_ZI ; PATH FOR ATTRIBUTE
     43        . . S @ZXPARY@(ZP)=GA(ZI) ; ADD THE ATTRIBUTE XPATH TO THE XP ARRAY
     44        . . I GA(ZI)'="" D ADDNARY(ZP,GA(ZI)) ; ADD THE NHIN ARRAY VALUE
     45        N GD D DATA("GD",ZOID) ; SEE IF THERE IS DATA FOR THIS NODE
     46        I $D(GD(2)) D  ;
     47        . M @ZXPARY@(NEWPATH)=GD ; IF MULITPLE DATA MERGE TO THE ARRAY
     48        E  I $D(GD(1)) D  ;
     49        . S @ZXPARY@(NEWPATH)=GD(1) ; IF SINGLE VALUE, ADD TO ARRAY
     50        . I GD(1)'="" D ADDNARY(NEWPATH,GD(1)) ; ADD TO NHIN ARRAY
     51        N ZFRST S ZFRST=$$FIRST(ZOID) ; SET FIRST CHILD
     52        I ZFRST'=0 D  ; THERE IS A CHILD
     53        . N ZNUM
     54        . N ZMULT S ZMULT=$$ISMULT(ZFRST) ; IS FIRST CHILD A MULTIPLE
     55        . D DOMO(ZFRST,NEWPATH,ZNARY,ZXIDX,ZXPARY,$S(ZMULT:1,1:""),ZREDUX) ; THE CHILD
     56        N GNXT S GNXT=$$NXTSIB(ZOID)
     57        I $$TAG(GNXT)'=$$TAG(ZOID) S ZNUM="" ; RESET COUNTING AFTER MULTIPLES
     58        I GNXT'=0 D  ;
     59        . N ZMULT S ZMULT=$$ISMULT(GNXT) ; IS THE SIBLING A MULTIPLE?
     60        . I (ZNUM="")&(ZMULT) D  ; SIBLING IS FIRST OF MULTIPLES
     61        . . N ZNUM S ZNUM=1 ;
     62        . . D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; DO NEXT SIB
     63        . E  D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; SIB
     64        Q
     65        ;
     66ADDNARY(ZXP,ZVALUE)     ; ADD AN NHIN ARRAY VALUE TO ZNARY
     67        ;
     68        ; IF ZATT=1 THE ARRAY IS ADDED AS ATTRIBUTES
     69        ;
     70        N ZZI,ZZJ,ZZN
     71        S ZZI=$P(ZXP,"/",1) ; FIRST PIECE OF XPATH ARRAY
     72        I ZZI="" Q  ; DON'T ADD THIS ONE .. PROBABLY THE //results NODE
     73        S ZZJ=$P(ZXP,ZZI_"/",2) ; REST OF XPATH ARRAY
     74        S ZZJ=$TR(ZZJ,"/",".") ; REPLACE / WITH .
     75        I ZZI'["]" D  ; A SINGLETON
     76        . S ZZN=1
     77        E  D  ; THERE IS AN [x] OCCURANCE
     78        . S ZZN=$P($P(ZZI,"[",2),"]",1) ; PULL OUT THE OCCURANCE
     79        . S ZZI=$P(ZZI,"[",1) ; TAKE OUT THE [X]
     80        I ZZJ'="" D  ; TIME TO ADD THE VALUE
     81        . S @ZNARY@(ZZI,ZZN,ZZJ)=ZVALUE
     82        Q
     83        ;
    8484PARSE(INXML,INDOC)      ;CALL THE MXML PARSER ON INXML, PASSED BY NAME
    85  ; INDOC IS PASSED AS THE DOCUMENT NAME - DON'T KNOW WHERE TO STORE THIS NOW
    86  ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY MXML
    87  ;Q $$EN^MXMLDOM(INXML)
    88  Q $$EN^MXMLDOM(INXML,"W")
    89  ;
     85        ; INDOC IS PASSED AS THE DOCUMENT NAME - DON'T KNOW WHERE TO STORE THIS NOW
     86        ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY MXML
     87        ;Q $$EN^MXMLDOM(INXML)
     88        Q $$EN^MXMLDOM(INXML,"W")
     89        ;
    9090ISMULT(ZOID)    ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
    91  N ZN
    92  ;I $$TAG(ZOID)["entry" B
    93  S ZN=$$NXTSIB(ZOID)
    94  I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
    95  Q 0
    96  ;
     91        N ZN
     92        ;I $$TAG(ZOID)["entry" B
     93        S ZN=$$NXTSIB(ZOID)
     94        I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
     95        Q 0
     96        ;
    9797FIRST(ZOID)     ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
    98  Q $$CHILD^MXMLDOM(C0CDOCID,ZOID)
    99  ;
     98        Q $$CHILD^MXMLDOM(C0CDOCID,ZOID)
     99        ;
    100100PARENT(ZOID)    ;RETURNS THE OID OF THE PARENT OF ZOID
    101  Q $$PARENT^MXMLDOM(C0CDOCID,ZOID)
    102  ;
     101        Q $$PARENT^MXMLDOM(C0CDOCID,ZOID)
     102        ;
    103103ATT(RTN,NODE)   ;GET ATTRIBUTES FOR ZOID
    104  S HANDLE=C0CDOCID
    105  K @RTN
    106  D GETTXT^MXMLDOM("A")
    107  Q
    108  ;
     104        S HANDLE=C0CDOCID
     105        K @RTN
     106        D GETTXT^MXMLDOM("A")
     107        Q
     108        ;
    109109TAG(ZOID)       ; RETURNS THE XML TAG FOR THE NODE
    110  ;I ZOID=149 B ;GPLTEST
    111  N X,Y
    112  S Y=""
    113  S X=$G(C0CCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
    114  I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
    115  I Y="" S Y=$$NAME^MXMLDOM(C0CDOCID,ZOID)
    116  Q Y
    117  ;
     110        ;I ZOID=149 B ;GPLTEST
     111        N X,Y
     112        S Y=""
     113        S X=$G(C0CCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
     114        I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
     115        I Y="" S Y=$$NAME^MXMLDOM(C0CDOCID,ZOID)
     116        Q Y
     117        ;
    118118NXTSIB(ZOID)    ; RETURNS THE NEXT SIBLING
    119  Q $$SIBLING^MXMLDOM(C0CDOCID,ZOID)
    120  ;
     119        Q $$SIBLING^MXMLDOM(C0CDOCID,ZOID)
     120        ;
    121121DATA(ZT,ZOID)   ; RETURNS DATA FOR THE NODE
    122  ;N ZT,ZN S ZT=""
    123  ;S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
    124  ;Q $G(@C0CDOM@(ZOID,"T",1))
    125  S ZN=$$TEXT^MXMLDOM(C0CDOCID,ZOID,ZT)
    126  Q
    127  ;
     122        ;N ZT,ZN S ZT=""
     123        ;S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
     124        ;Q $G(@C0CDOM@(ZOID,"T",1))
     125        S ZN=$$TEXT^MXMLDOM(C0CDOCID,ZOID,ZT)
     126        Q
     127        ;
    128128OUTXML(ZRTN,INID,NO1ST) ; USES C0CMXMLB (MXMLBLD) TO OUTPUT XML FROM AN MXMLDOM
    129  ;
    130  S C0CDOCID=INID
    131  I '$D(NO1ST) S NO1ST=0 ; DO NOT SURPRESS THE <?xml tag generation
    132  D START^C0CMXMLB($$TAG(1),,"G",NO1ST)
    133  D NDOUT($$FIRST(1))
    134  D END^C0CMXMLB ;END THE DOCUMENT
    135  M @ZRTN=^TMP("MXMLBLD",$J)
    136  K ^TMP("MXMLBLD",$J)
    137  Q
    138  ;
     129        ;
     130        S C0CDOCID=INID
     131        I '$D(NO1ST) S NO1ST=0 ; DO NOT SURPRESS THE <?xml tag generation
     132        D START^C0CMXMLB($$TAG(1),,"G",NO1ST)
     133        D NDOUT($$FIRST(1))
     134        D END^C0CMXMLB ;END THE DOCUMENT
     135        M @ZRTN=^TMP("MXMLBLD",$J)
     136        K ^TMP("MXMLBLD",$J)
     137        Q
     138        ;
    139139NDOUT(ZOID)     ;CALLBACK ROUTINE - IT IS RECURSIVE
    140  N ZI S ZI=$$FIRST(ZOID)
    141  I ZI'=0 D  ; THERE IS A CHILD
    142  . N ZATT D ATT("ZATT",ZOID) ; THESE ARE THE ATTRIBUTES MOVED TO ZATT
    143  . D MULTI^C0CMXMLB("",$$TAG(ZOID),.ZATT,"NDOUT^C0CMXML(ZI)") ;HAVE CHILDREN
    144  E  D  ; NO CHILD - IF NO CHILDREN, A NODE HAS DATA, IS AN ENDPOINT
    145  . ;W "DOING",ZOID,!
    146  . N ZD D DATA("ZD",ZOID) ;NODES WITHOUT CHILDREN HAVE DATA
    147  . N ZATT D ATT("ZATT",ZOID) ;ATTRIBUTES
    148  . D ITEM^C0CMXMLB("",$$TAG(ZOID),.ZATT,$G(ZD(1))) ;NO CHILDREN
    149  I $$NXTSIB(ZOID)'=0 D  ; THERE IS A SIBLING
    150  . D NDOUT($$NXTSIB(ZOID)) ;RECURSE FOR SIBLINGS
    151  Q
    152  ;
    153 WNHIN(ZDFN) ; WRITES THE XML OUTPUT OF GET^NHINV TO AN XML FILE
    154  ;
    155  N GN,GN2
    156  D GET^NHINV(.GN,ZDFN) ; EXTRACT THE XML
    157  S GN2=$NA(@GN@(1))
    158  W $$OUTPUT^C0CXPATH(GN2,"nhin_"_ZDFN_".xml","/home/wvehr3-09/")
    159  Q
    160  ;
    161 NARY2XML(ZGOUT,ZGIN) ; CREATE XML FROM AN NHIN ARRAY
    162  ; ZGOUT AND ZGIN ARE PASSED BY NAME
    163  N C0CDOCID
    164  W !,ZGOUT," ",ZGIN
    165  S C0CDOCID=$$DOMI(ZGIN) ; PUT IT INTO THE DOM
    166  D OUTXML(ZGOUT,C0CDOCID)
    167  Q
    168  ;
    169  ; EXAMPLE OF NHIN ARRAY FORMAT - THIS IS AN OUTPUT OF DOMO ABOVE WHEN RUN
    170  ; AGAINST THE OUTPUT OF THE GET^NHINV ROUTINE. (THIS IS NOT REAL PATIENT DATA)
    171  ;
    172  ;GNARY("med",1,"doses.dose@dose")=10
    173  ;GNARY("med",1,"doses.dose@noun")="TABLET"
    174  ;GNARY("med",1,"doses.dose@route")="PO"
    175  ;GNARY("med",1,"doses.dose@schedule")="QD"
    176  ;GNARY("med",1,"doses.dose@units")="MG"
    177  ;GNARY("med",1,"doses.dose@unitsPerDose")=1
    178  ;GNARY("med",1,"facility@code")=100
    179  ;GNARY("med",1,"facility@name")="VOE OFFICE INSTITUTION"
    180  ;GNARY("med",1,"form@value")="TAB"
    181  ;GNARY("med",1,"id@value")="1N;O"
    182  ;GNARY("med",1,"location@code")=5
    183  ;GNARY("med",1,"location@name")="3 WEST"
    184  ;GNARY("med",1,"name@value")="LISINOPRIL TAB"
    185  ;GNARY("med",1,"orderID@value")=294
    186  ;GNARY("med",1,"ordered@value")=3110531.001233
    187  ;GNARY("med",1,"orderingProvider@code")=63
    188  ;GNARY("med",1,"orderingProvider@name")="KING,MATTHEW MICHAEL"
    189  ;GNARY("med",1,"products.product.class@code")="ACE INHIBITORS"
    190  ;GNARY("med",1,"products.product.vaGeneric@code")=1990
    191  ;GNARY("med",1,"products.product.vaGeneric@name")="LISINOPRIL"
    192  ;GNARY("med",1,"products.product.vaGeneric@vuid")=4019380
    193  ;GNARY("med",1,"products.product.vaProduct@code")=8118
    194  ;GNARY("med",1,"products.product.vaProduct@name")="LISINOPRIL 10MG TAB"
    195  ;GNARY("med",1,"products.product.vaProduct@vuid")=4008593
    196  ;GNARY("med",1,"products.product@code")=6174
    197  ;GNARY("med",1,"products.product@name")="LISINOPRIL 10MG U/D"
    198  ;GNARY("med",1,"products.product@role")="D"
    199  ;GNARY("med",1,"sig")="10MG BY MOUTH EVERY DAY"
    200  ;GNARY("med",1,"sig@xml:space")="preserve"
    201  ;GNARY("med",1,"status@value")="active"
    202  ;GNARY("med",1,"type@value")="OTC"
    203  ;GNARY("med",1,"vaType@value")="N"
    204  ;
    205  ; DOMI is an extrinsic to insert NHIN ARRAY FORMAT arrays into the DOM
    206  ; it returns 0 or 1 based on success.
    207  ;
    208  ; INARY is passed by name and has the format shown above
    209  ; HANDLE is the document number in the DOM (both MXML and EWD DOMs will
    210  ; be supported eventually - initial implementation is for MXML
    211  ;
    212  ; PARENT is the node id or tag of the parent under which the DOM will
    213  ; be populated. If it is numeric, it is a node. If it is a string, the DOM
    214  ; will be searched to find the tag. If not found and there is no root,
    215  ; it will be inserted as the root. If not found and there is a root, it
    216  ; will be inserted under the root.
    217  ;
    218  ; For the above example the call would be OK=$$DOMI("GNARY",0,"results")
    219  ; because "results" is the root tag. Use OUTXML to render the xml from
    220  ; the DOM.
    221  ;
    222 DOMI(INARY,HANDLE,PARENT) ; EXTRINSIC TO INSERT NHIN ARRAYS TO A DOM
    223  ;
    224  N ZPARNODE
    225  S (SUCCESS,LEVEL,LEVEL(0),NODE)=0
    226  I '$D(INARY) Q 0 ; NO ARRAY PASSED
    227  I '$D(HANDLE) S HANDLE=$$NEWDOM() ; MAKE A NEW DOM
    228  ;I PARENT="" S PARENT="root"
    229  I +$G(PARENT)>0 S ZPARNODE=PARENT ; WE HAVE BEEN PASSED A PARENT NODE ID
    230  E  I $L($G(PARENT))>0 D  ; TBD FIND THE PARENT IN THE DOM AND SET LEVEL
    231  . D STARTELE^MXMLDOM(PARENT) ; INSERT THE PARENT NODE
    232  . S ZPARNODE=1 ;
    233  ; WE NOW HAVE A HANDLE AND A PARENT NODE AND LEVEL HAS BEEN SET
    234  N ZEXARY
    235  D EXPAND("ZEXARY",INARY) ; EXPAND THE NHIN ARRAY
    236  D MAJOR("ZEXARY") ; PROCESS ALL THE NODES TO BE ADDED
    237  I $L($G(PARENT))>0 D ENDELE^MXMLDOM(PARENT) ; CLOSE OUT THE PARENT NODE
    238  Q HANDLE ; SUCCESS
    239  ;
    240 MAJOR(ZARY) ; RECURSIVE ROUTINE FOR INTERMEDIATE NODES
    241  N ZI S ZI=""
    242  N ZTAG
    243  F  S ZI=$O(@ZARY@(ZI)) Q:ZI=""  D  ; FOR EACH SECTION
    244  . N ZELEADD S ZELEADD=0
    245  . I ZI["@" D  ; END NODE HAS NO VALUE, ONLY ATTRIBUTES
    246  . . S ZTAG=$P(ZI,"@",1) ; PULL OUT THE TAG
    247  . . K ZATT ; CLEAR OUT LAST ONE
    248  . . M ZATT=@ZARY@(ZI,1) ; GET ATTRIBUTE ARRAY
    249  . . D STARTELE^MXMLDOM(ZTAG,.ZATT) ; ADD THE NODE
    250  . . S ZELEADD=1 ; FLAG TO NOT ADD THE ELEMENT TWICE
    251  . I $O(@ZARY@(ZI,""))="" D  ;END NODE
    252  . . S ZTAG=ZI ; USE ZI FOR THE TAG
    253  . . I 'ZELEADD D STARTELE^MXMLDOM(ZTAG) ; ADD ELEMENT IF NOT THERE
    254  . . S ZELEADD=1 ; ADDED AN ELEMENT
    255  . . D CHAR^MXMLDOM($G(@ZARY@(ZI))) ; INSERT THE VALUE
    256  . I ZELEADD D  Q  ; NO MORE TO DO ON THIS LEVEL
    257  . . D ENDELE^MXMLDOM(ZTAG) ; CLOSE THE ELEMENT BEFORE LEAVING
    258  . N NEWARY ; INDENTED ARRAY
    259  . N ZN S ZN=0
    260  . F  S ZN=$O(@ZARY@(ZI,ZN)) Q:ZN=""  D  ; FOR EACH MULTIPLE
    261  . . D STARTELE^MXMLDOM(ZI) ; ADD THE INTERMEDIATE TAG
    262  . . S NEWARY=$NA(@ZARY@(ZI,ZN)) ; INDENT THE ARRAY
    263  . . D MAJOR(NEWARY) ; RECURSE FOR INDENTED ARRAY
    264  . . D ENDELE^MXMLDOM(ZI) ; END THE INTERMEDIATE TAG
    265  Q
    266  ;
    267 EXPAND(ZZOUT,ZZIN) ; EXPANDS NHIN ARRAY FORMAT TO AN EXPANDED
    268  ; CONSISTENT FORMAT
    269  ; GNARY("patient",1,"facilities[2].facility@code")="050"
    270  ; becomes G2ARY("patient",1,"facilities",2,"facility@",1,"code")="050"
    271  ; for easier processing (this is fileman format genius)
    272  ; basically removes the dot notation from the strings
    273  ;
    274  N ZZI
    275  S ZZI=""
    276  F  S ZZI=$O(@ZZIN@(ZZI)) Q:ZZI=""  D  ;
    277  . N ZZN S ZZN=0
    278  . F  S ZZN=$O(@ZZIN@(ZZI,ZZN)) Q:ZZN=""  D  ;
    279  . . N ZZS S ZZS=""
    280  . . N GA ;PUSH STACK
    281  . . F  S ZZS=$O(@ZZIN@(ZZI,ZZN,ZZS)) Q:ZZS=""  D  ;
    282  . . . K GA ; NEW STACK
    283  . . . D PUSH^C0CXPATH("GA",ZZI_"^"_ZZN) ; PUSH PARENT
    284  . . . N ZZV ; PLACE TO STASH THE VALUE
    285  . . . S ZZV=@ZZIN@(ZZI,ZZN,ZZS) ; VALUE
    286  . . . W !,"VALUE:",ZZV
    287  . . . N GK ; COUNTER
    288  . . . F GK=1:1:$L(ZZS,".") D  ; FOR EACH INTERMEDIATE NODE
    289  . . . . N ZZN2 S ZZN2=1 ; DEFAULT IF NO [X]
    290  . . . . N GM S GM=$P(ZZS,".",GK) ; TAG
    291  . . . . I GM["[" D  ; IT'S A MULTIPLE
    292  . . . . . S ZZN2=$P($P(GM,"[",2),"]",1) ; PULL OUT THE NUMBER
    293  . . . . . S GM=$P(GM,"[",1) ; PULL OUT THE TAG
    294  . . . . I GM["@" D  ; IT'S GOT ATTRIBUTES
    295  . . . . . N GM2 S GM2=$P(GM,"@",2) ; PULLOUT THE ATTRIBUTE NAME
    296  . . . . . D PUSH^C0CXPATH("GA",$P(GM,"@",1)_"@"_"^"_ZZN2) ; PUSH THE TAG
    297  . . . . . D PUSH^C0CXPATH("GA",GM2_"^"_ZZN2)
    298  . . . . E  D PUSH^C0CXPATH("GA",GM_"^"_ZZN2) ;
    299  . . . S GA(GA(0))=$P(GA(GA(0)),"^",1)_"^" ; GET RID OF THE LAST "1"
    300  . . . N GZI S GZI="" ; STRING FOR THE INDEX
    301  . . . F GK=1:1:GA(0) D  ; TIME TO REVERSE POP THE TAGS
    302  . . . . S GM=$P(GA(GK),"^",1) ; THE TAG
    303  . . . . S ZZN2=$P(GA(GK),"^",2) ; THE NUMBER IF ANY
    304  . . . . I ZZN2="" S GZI=GZI_""""_GM_"""" ; FOR THE LAST ONE
    305  . . . . E  S GZI=GZI_""""_GM_""""_","_ZZN2_"," ; FOR THE REST
    306  . . . S GZI2=ZZOUT_"("_GZI_")" ; INCLUDE THE ARRAY NAME
    307  . . . W !,GZI
    308  . . . S @GZI2=ZZV ; REMEMBER THE VALUE?
    309  Q
    310  ;
    311 NEWDOM() ; extrinsic which creates a new DOM and returns the HANDLE
    312  N CBK,SUCCESS,LEVEL,NODE,HANDLE
    313  K ^TMP("MXMLERR",$J)
    314  L +^TMP("MXMLDOM",$J):5
    315  E  Q 0
    316  S HANDLE=$O(^TMP("MXMLDOM",$J,""),-1)+1,^(HANDLE)=""
    317  L -^TMP("MXMLDOM",$J)
    318  Q HANDLE
    319  ;
     140        N ZI S ZI=$$FIRST(ZOID)
     141        I ZI'=0 D  ; THERE IS A CHILD
     142        . N ZATT D ATT("ZATT",ZOID) ; THESE ARE THE ATTRIBUTES MOVED TO ZATT
     143        . D MULTI^C0CMXMLB("",$$TAG(ZOID),.ZATT,"NDOUT^C0CMXML(ZI)") ;HAVE CHILDREN
     144        E  D  ; NO CHILD - IF NO CHILDREN, A NODE HAS DATA, IS AN ENDPOINT
     145        . ;W "DOING",ZOID,!
     146        . N ZD D DATA("ZD",ZOID) ;NODES WITHOUT CHILDREN HAVE DATA
     147        . N ZATT D ATT("ZATT",ZOID) ;ATTRIBUTES
     148        . D ITEM^C0CMXMLB("",$$TAG(ZOID),.ZATT,$G(ZD(1))) ;NO CHILDREN
     149        I $$NXTSIB(ZOID)'=0 D  ; THERE IS A SIBLING
     150        . D NDOUT($$NXTSIB(ZOID)) ;RECURSE FOR SIBLINGS
     151        Q
     152        ;
     153WNHIN(ZDFN)     ; WRITES THE XML OUTPUT OF GET^NHINV TO AN XML FILE
     154        ;
     155        N GN,GN2
     156        D GET^NHINV(.GN,ZDFN) ; EXTRACT THE XML
     157        S GN2=$NA(@GN@(1))
     158        W $$OUTPUT^C0CXPATH(GN2,"nhin_"_ZDFN_".xml","/home/wvehr3-09/")
     159        Q
     160        ;
     161NARY2XML(ZGOUT,ZGIN)    ; CREATE XML FROM AN NHIN ARRAY
     162        ; ZGOUT AND ZGIN ARE PASSED BY NAME
     163        N C0CDOCID
     164        W !,ZGOUT," ",ZGIN
     165        S C0CDOCID=$$DOMI(ZGIN) ; PUT IT INTO THE DOM
     166        D OUTXML(ZGOUT,C0CDOCID)
     167        Q
     168        ;
     169        ; EXAMPLE OF NHIN ARRAY FORMAT - THIS IS AN OUTPUT OF DOMO ABOVE WHEN RUN
     170        ; AGAINST THE OUTPUT OF THE GET^NHINV ROUTINE. (THIS IS NOT REAL PATIENT DATA)
     171        ;
     172        ;GNARY("med",1,"doses.dose@dose")=10
     173        ;GNARY("med",1,"doses.dose@noun")="TABLET"
     174        ;GNARY("med",1,"doses.dose@route")="PO"
     175        ;GNARY("med",1,"doses.dose@schedule")="QD"
     176        ;GNARY("med",1,"doses.dose@units")="MG"
     177        ;GNARY("med",1,"doses.dose@unitsPerDose")=1
     178        ;GNARY("med",1,"facility@code")=100
     179        ;GNARY("med",1,"facility@name")="VOE OFFICE INSTITUTION"
     180        ;GNARY("med",1,"form@value")="TAB"
     181        ;GNARY("med",1,"id@value")="1N;O"
     182        ;GNARY("med",1,"location@code")=5
     183        ;GNARY("med",1,"location@name")="3 WEST"
     184        ;GNARY("med",1,"name@value")="LISINOPRIL TAB"
     185        ;GNARY("med",1,"orderID@value")=294
     186        ;GNARY("med",1,"ordered@value")=3110531.001233
     187        ;GNARY("med",1,"orderingProvider@code")=63
     188        ;GNARY("med",1,"orderingProvider@name")="KING,MATTHEW MICHAEL"
     189        ;GNARY("med",1,"products.product.class@code")="ACE INHIBITORS"
     190        ;GNARY("med",1,"products.product.vaGeneric@code")=1990
     191        ;GNARY("med",1,"products.product.vaGeneric@name")="LISINOPRIL"
     192        ;GNARY("med",1,"products.product.vaGeneric@vuid")=4019380
     193        ;GNARY("med",1,"products.product.vaProduct@code")=8118
     194        ;GNARY("med",1,"products.product.vaProduct@name")="LISINOPRIL 10MG TAB"
     195        ;GNARY("med",1,"products.product.vaProduct@vuid")=4008593
     196        ;GNARY("med",1,"products.product@code")=6174
     197        ;GNARY("med",1,"products.product@name")="LISINOPRIL 10MG U/D"
     198        ;GNARY("med",1,"products.product@role")="D"
     199        ;GNARY("med",1,"sig")="10MG BY MOUTH EVERY DAY"
     200        ;GNARY("med",1,"sig@xml:space")="preserve"
     201        ;GNARY("med",1,"status@value")="active"
     202        ;GNARY("med",1,"type@value")="OTC"
     203        ;GNARY("med",1,"vaType@value")="N"
     204        ;
     205        ; DOMI is an extrinsic to insert NHIN ARRAY FORMAT arrays into the DOM
     206        ; it returns 0 or 1 based on success.
     207        ;
     208        ; INARY is passed by name and has the format shown above
     209        ; HANDLE is the document number in the DOM (both MXML and EWD DOMs will
     210        ; be supported eventually - initial implementation is for MXML
     211        ;
     212        ; PARENT is the node id or tag of the parent under which the DOM will
     213        ; be populated. If it is numeric, it is a node. If it is a string, the DOM
     214        ; will be searched to find the tag. If not found and there is no root,
     215        ; it will be inserted as the root. If not found and there is a root, it
     216        ; will be inserted under the root.
     217        ;
     218        ; For the above example the call would be OK=$$DOMI("GNARY",0,"results")
     219        ; because "results" is the root tag. Use OUTXML to render the xml from
     220        ; the DOM.
     221        ;
     222DOMI(INARY,HANDLE,PARENT)       ; EXTRINSIC TO INSERT NHIN ARRAYS TO A DOM
     223        ;
     224        N ZPARNODE
     225        S (SUCCESS,LEVEL,LEVEL(0),NODE)=0
     226        I '$D(INARY) Q 0 ; NO ARRAY PASSED
     227        I '$D(HANDLE) S HANDLE=$$NEWDOM() ; MAKE A NEW DOM
     228        ;I PARENT="" S PARENT="root"
     229        I +$G(PARENT)>0 S ZPARNODE=PARENT ; WE HAVE BEEN PASSED A PARENT NODE ID
     230        E  I $L($G(PARENT))>0 D  ; TBD FIND THE PARENT IN THE DOM AND SET LEVEL
     231        . D STARTELE^MXMLDOM(PARENT) ; INSERT THE PARENT NODE
     232        . S ZPARNODE=1 ;
     233        ; WE NOW HAVE A HANDLE AND A PARENT NODE AND LEVEL HAS BEEN SET
     234        N ZEXARY
     235        D EXPAND("ZEXARY",INARY) ; EXPAND THE NHIN ARRAY
     236        D MAJOR("ZEXARY") ; PROCESS ALL THE NODES TO BE ADDED
     237        I $L($G(PARENT))>0 D ENDELE^MXMLDOM(PARENT) ; CLOSE OUT THE PARENT NODE
     238        Q HANDLE ; SUCCESS
     239        ;
     240MAJOR(ZARY)     ; RECURSIVE ROUTINE FOR INTERMEDIATE NODES
     241        N ZI S ZI=""
     242        N ZTAG
     243        F  S ZI=$O(@ZARY@(ZI)) Q:ZI=""  D  ; FOR EACH SECTION
     244        . N ZELEADD S ZELEADD=0
     245        . I ZI["@" D  ; END NODE HAS NO VALUE, ONLY ATTRIBUTES
     246        . . S ZTAG=$P(ZI,"@",1) ; PULL OUT THE TAG
     247        . . K ZATT ; CLEAR OUT LAST ONE
     248        . . M ZATT=@ZARY@(ZI,1) ; GET ATTRIBUTE ARRAY
     249        . . D STARTELE^MXMLDOM(ZTAG,.ZATT) ; ADD THE NODE
     250        . . S ZELEADD=1 ; FLAG TO NOT ADD THE ELEMENT TWICE
     251        . I $O(@ZARY@(ZI,""))="" D  ;END NODE
     252        . . S ZTAG=ZI ; USE ZI FOR THE TAG
     253        . . I 'ZELEADD D STARTELE^MXMLDOM(ZTAG) ; ADD ELEMENT IF NOT THERE
     254        . . S ZELEADD=1 ; ADDED AN ELEMENT
     255        . . D CHAR^MXMLDOM($G(@ZARY@(ZI))) ; INSERT THE VALUE
     256        . I ZELEADD D  Q  ; NO MORE TO DO ON THIS LEVEL
     257        . . D ENDELE^MXMLDOM(ZTAG) ; CLOSE THE ELEMENT BEFORE LEAVING
     258        . N NEWARY ; INDENTED ARRAY
     259        . N ZN S ZN=0
     260        . F  S ZN=$O(@ZARY@(ZI,ZN)) Q:ZN=""  D  ; FOR EACH MULTIPLE
     261        . . D STARTELE^MXMLDOM(ZI) ; ADD THE INTERMEDIATE TAG
     262        . . S NEWARY=$NA(@ZARY@(ZI,ZN)) ; INDENT THE ARRAY
     263        . . D MAJOR(NEWARY) ; RECURSE FOR INDENTED ARRAY
     264        . . D ENDELE^MXMLDOM(ZI) ; END THE INTERMEDIATE TAG
     265        Q
     266        ;
     267EXPAND(ZZOUT,ZZIN)      ; EXPANDS NHIN ARRAY FORMAT TO AN EXPANDED
     268        ; CONSISTENT FORMAT
     269        ; GNARY("patient",1,"facilities[2].facility@code")="050"
     270        ; becomes G2ARY("patient",1,"facilities",2,"facility@",1,"code")="050"
     271        ; for easier processing (this is fileman format genius)
     272        ; basically removes the dot notation from the strings
     273        ;
     274        N ZZI
     275        S ZZI=""
     276        F  S ZZI=$O(@ZZIN@(ZZI)) Q:ZZI=""  D  ;
     277        . N ZZN S ZZN=0
     278        . F  S ZZN=$O(@ZZIN@(ZZI,ZZN)) Q:ZZN=""  D  ;
     279        . . N ZZS S ZZS=""
     280        . . N GA ;PUSH STACK
     281        . . F  S ZZS=$O(@ZZIN@(ZZI,ZZN,ZZS)) Q:ZZS=""  D  ;
     282        . . . K GA ; NEW STACK
     283        . . . D PUSH^C0CXPATH("GA",ZZI_"^"_ZZN) ; PUSH PARENT
     284        . . . N ZZV ; PLACE TO STASH THE VALUE
     285        . . . S ZZV=@ZZIN@(ZZI,ZZN,ZZS) ; VALUE
     286        . . . W !,"VALUE:",ZZV
     287        . . . N GK ; COUNTER
     288        . . . F GK=1:1:$L(ZZS,".") D  ; FOR EACH INTERMEDIATE NODE
     289        . . . . N ZZN2 S ZZN2=1 ; DEFAULT IF NO [X]
     290        . . . . N GM S GM=$P(ZZS,".",GK) ; TAG
     291        . . . . I GM["[" D  ; IT'S A MULTIPLE
     292        . . . . . S ZZN2=$P($P(GM,"[",2),"]",1) ; PULL OUT THE NUMBER
     293        . . . . . S GM=$P(GM,"[",1) ; PULL OUT THE TAG
     294        . . . . I GM["@" D  ; IT'S GOT ATTRIBUTES
     295        . . . . . N GM2 S GM2=$P(GM,"@",2) ; PULLOUT THE ATTRIBUTE NAME
     296        . . . . . D PUSH^C0CXPATH("GA",$P(GM,"@",1)_"@"_"^"_ZZN2) ; PUSH THE TAG
     297        . . . . . D PUSH^C0CXPATH("GA",GM2_"^"_ZZN2)
     298        . . . . E  D PUSH^C0CXPATH("GA",GM_"^"_ZZN2) ;
     299        . . . S GA(GA(0))=$P(GA(GA(0)),"^",1)_"^" ; GET RID OF THE LAST "1"
     300        . . . N GZI S GZI="" ; STRING FOR THE INDEX
     301        . . . F GK=1:1:GA(0) D  ; TIME TO REVERSE POP THE TAGS
     302        . . . . S GM=$P(GA(GK),"^",1) ; THE TAG
     303        . . . . S ZZN2=$P(GA(GK),"^",2) ; THE NUMBER IF ANY
     304        . . . . I ZZN2="" S GZI=GZI_""""_GM_"""" ; FOR THE LAST ONE
     305        . . . . E  S GZI=GZI_""""_GM_""""_","_ZZN2_"," ; FOR THE REST
     306        . . . S GZI2=ZZOUT_"("_GZI_")" ; INCLUDE THE ARRAY NAME
     307        . . . W !,GZI
     308        . . . S @GZI2=ZZV ; REMEMBER THE VALUE?
     309        Q
     310        ;
     311NEWDOM()        ; extrinsic which creates a new DOM and returns the HANDLE
     312        N CBK,SUCCESS,LEVEL,NODE,HANDLE
     313        K ^TMP("MXMLERR",$J)
     314        L +^TMP("MXMLDOM",$J):5
     315        E  Q 0
     316        S HANDLE=$O(^TMP("MXMLDOM",$J,""),-1)+1,^(HANDLE)=""
     317        L -^TMP("MXMLDOM",$J)
     318        Q HANDLE
     319        ;
  • ccr/branches/ohum/p/C0CDPT.m

    r1332 r1333  
    11C0CDPT  ;WV/CCRCCD/SMH - Routines to Extract Patient Data for CCDCCR; 6/15/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;
    44        ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
  • ccr/branches/ohum/p/C0CENC.m

    r1332 r1333  
    11C0CENC   ; CCDCCR/GPL - CCR/CCD PROCESSING FOR ENCOUNTERS ; 05/21/10
    2         ;;1.0;C0C;;May 21, 2010;Build 38
     2        ;;1.0;C0C;;May 21, 2010;Build 1
    33        ;Copyright 2010 George Lilly, University of Minnesota and others.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CENV.m

    r1332 r1333  
    1 C0CENV ;WV/JMC - CCD/CCR Environment Check/Install Routine ; Aug 16, 2009
    2  ;;1.0;C0C;;May 19, 2009;
    3  ;
    4  ;
    5 ENV ; Does not prevent loading of the transport global.
    6  ; Environment check is done only during the install.
    7  ;
    8  N XQA,XQAMSG
    9  ;
    10  ;
    11  ; Make sure the patch name exist
    12  ;
    13  I '$D(XPDNM) D  Q
    14  . D BMES("No valid patch name exist")
    15  . S XPDQUIT=2
    16  . D EXIT
    17  ;
    18  D CHECK
    19  D EXIT
    20  Q
    21  ;
    22  ;
    23 CHECK ; Perform environment check
     1C0CENV  ;WV/JMC - CCD/CCR Environment Check/Install Routine ; Aug 16, 2009
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    243        ;
    25  I $S('$G(IOM):1,'$G(IOSL):1,$G(U)'="^":1,1:0) D
    26  . D BMES("Terminal Device is not defined")
    27  . S XPDQUIT=2
    28  ;
    29  I $S('$G(DUZ):1,$D(DUZ)[0:1,$D(DUZ(0))[0:1,1:0) D
    30  . D BMES("Please log in to set local DUZ... variables")
    31  . S XPDQUIT=2
    32  ;
    33  I $P($$ACTIVE^XUSER(DUZ),"^")'=1 D
    34  . D BMES("You are not a valid user on this system")
    35  . S XPDQUIT=2
     4        ;
     5ENV     ; Does not prevent loading of the transport global.
     6        ; Environment check is done only during the install.
     7        ;
     8        N XQA,XQAMSG
     9        ;
     10        ;
     11        ; Make sure the patch name exist
     12        ;
     13        I '$D(XPDNM) D  Q
     14        . D BMES("No valid patch name exist")
     15        . S XPDQUIT=2
     16        . D EXIT
     17        ;
     18        D CHECK
     19        D EXIT
    3620        Q
    3721        ;
    3822        ;
    39 EXIT ;
     23CHECK   ; Perform environment check
     24        ;
     25        I $S('$G(IOM):1,'$G(IOSL):1,$G(U)'="^":1,1:0) D
     26        . D BMES("Terminal Device is not defined")
     27        . S XPDQUIT=2
     28        ;
     29        I $S('$G(DUZ):1,$D(DUZ)[0:1,$D(DUZ(0))[0:1,1:0) D
     30        . D BMES("Please log in to set local DUZ... variables")
     31        . S XPDQUIT=2
     32        ;
     33        I $P($$ACTIVE^XUSER(DUZ),"^")'=1 D
     34        . D BMES("You are not a valid user on this system")
     35        . S XPDQUIT=2
     36        Q
    4037        ;
    4138        ;
    42  I $G(XPDQUIT) D BMES("--- Install Environment Check FAILED ---") Q
    43  D BMES("--- Environment Check is Ok ---")
    44         ;
    45  Q
     39EXIT    ;
    4640        ;
    4741        ;
    48 PRE ;Pre-install entry point
     42        I $G(XPDQUIT) D BMES("--- Install Environment Check FAILED ---") Q
     43        D BMES("--- Environment Check is Ok ---")
     44        ;
     45        Q
     46        ;
     47        ;
     48PRE     ;Pre-install entry point
    4949        ;
    5050        ; No action needed in pre-install
     
    5454        ;
    5555        ;
    56 POST ;Post install
     56POST    ;Post install
    5757        ;
    5858        ; Check for RPMS system with V LAB file.
     
    131131        ;
    132132        ;
    133 POST6 ; Checkpoint call back entry point.
     133POST6   ; Checkpoint call back entry point.
    134134        ; Check for RPMS system and determine LAB patch level
    135135        ;  and need to load in C0C version of LA7 routines.
     
    174174        ;
    175175        ;
    176 BMES(STR) ; Write BMES^XPDUTL statements
     176BMES(STR)       ; Write BMES^XPDUTL statements
    177177        ;
    178178        D BMES^XPDUTL($$CJ^XLFSTR(STR,IOM))
  • ccr/branches/ohum/p/C0CEVC.m

    r1332 r1333  
    11C0CEVC    ; CCDCCR/GPL - SUPPORT FOR EWD VISTCOM PAGES ; 3/1/2010
    2  ;;1.0;C0C;;Mar 1, 2010;
    3 gpltest2 ; experiment with sending a CCR to an ewd page
    4  N ZI
    5  S ZI=""
    6  D PSEUDO
    7  N ZIO
    8  S ZIO=IO
    9  S IO="/dev/null"
    10  OPEN IO
    11  U IO
    12  N G
    13  S G=$$URLTOKEN^C0CEWD
    14  D CCRRPC^C0CCCR(.GPL,2)
    15  S IO=ZIO
    16  OPEN IO
    17  U IO
    18  K GPL(0)
    19  F  S ZI=$O(GPL(ZI)) Q:ZI=""  W GPL(ZI),!
    20  Q
    21  ;
    22 gpltest ; experiment with sending a CCR to an ewd page
    23  N ZI
    24  S ZI=""
    25  K ^GPL(0)
    26  S ^GPL(2)="<?xml-stylesheet type=""text/xsl"" href=""/resources/ccr.xsl""?>"
    27  F  S ZI=$O(^GPL(ZI)) Q:ZI=""  W ^GPL(ZI),!
    28  Q
    29  ;
    30 TEST(sessid); 
    31  d setSessionValue^%zewdAPI("person.Name","Rob",sessid)
    32  d setSessionValue^%zewdAPI("person.DateOfBirth","13/06/55",sessid)
    33  d setSessionValue^%zewdAPI("person.Address.PostCode","SW1 3QA",sessid)
    34  d setSessionValue^%zewdAPI("person.Address.Line1","1 The Street",sessid)
    35  d setSessionValue^%zewdAPI("person.Address.2.hello","world",sessid)
    36  d setJSONValue^%zewdAPI("json","person",sessid)
    37  Q ""
    38 
    39 PARSE(INXML,INDOC) ;CALL THE EWD PARSER ON INXML, PASSED BY NAME
    40  ; INDOC IS PASSED AS THE DOCUMENT NAME TO EWD
    41  ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY EWD
    42  N ZR
    43  M ^CacheTempEWD($j)=@INXML ;
    44  S ZR=$$parseDocument^%zewdHTMLParser(INDOC)
    45  Q ZR
    46  ;
    47 TEST2(sessid) ; try to put a ccr in the session
    48  S U="^"
    49  D PSEUDO ; FAKE LOGIN
    50  S ZIO=$IO
    51  S DEV="/dev/null"
    52  O DEV U DEV
    53  N G
    54  N ZDFN
    55  S ZDFN=$$getSessionValue^%zewdAPI("vista.dfn",sessid)
    56  I ZDFN="" S ZDFN=2
    57  ;K ^TMP("GPL")
    58  ;M ^TMP("GPL")=^%zewdSession("session",sessid)
    59  D CCRRPC^C0CCCR(.GPL,ZDFN)
    60  K GPL(0)   
    61  S GPL(2)="<?xml-stylesheet type=""text/xsl"" href=""/resources/ccr.xsl""?>"
    62  C DEV U ZIO
    63  ;M ^CacheTempEWD($j)=GPL
    64  S DOCNAME="CCR"
    65  ;ZWR GPL
    66  ;S ZR=$$parseDocument^%zewdHTMLParser(DOCNAME)
    67  ;d setSessionValues^%zewdAPI(DOCNAME,GPL,sessid)
    68  d mergeArrayToSession^%zewdAPI(.GPL,DOCNAME,sessid)
    69  Q ""
    70  ;
    71 INITSES(sessid) ;initialize an EWD/CPRS session
    72  K ^TMP("GPL")
    73  ;M ^TMP("GPL")=^%zewdSession("session",sessid)
    74  N ZT,ZDFN
    75  S ZT=$$URLTOKEN^C0CEWD(sessid)
    76  ;S ^TMP("GPL")=ZT
    77  d trace^%zewdAPI("*********************ZT="_ZT)
    78  S ZDFN=$$PRSEORTK(ZT) ; PARSE THE TOKEN AND LOOK UP THE DFN
    79  S ^TMP("GPL","DFN")=ZDFN
    80  I ZDFN=0 S DFN=2 ; DEFAULT TEST PATIENT
    81  D setSessionValue^%zewdAPI("vista.dfn",ZDFN,sessid)
    82  ;M ^TMP("GPL","request")=requestArray
    83  ;D PSEUDO
    84  ;D ^%ZTER
    85  q ""
    86  ;
    87 PRSEORTK(ZTOKEN) ;PARSES THE TOKEN SENT BY CPRS AND RETURNS THE DFN
    88  ; OF THE PATIENT ; HERE'S WHAT THE TOKEN LOOKS LIKE:
    89  ; ^TMP('ORWCHART',6547,'192.168.169.8',002E0FE6)
    90  N ZX,ZN1,ZIP,ZN2,ZDFN,ZG
    91  S ZDFN=0 ; DEFAULT RETURN
    92  S ZN1=$P(ZTOKEN,",",2) ; FIRST NUMBER
    93  S ZIP=$P(ZTOKEN,",",3) ; IP NUMBER
    94  S ZIP=$P(ZIP,"'",2) ; GET RID OF '
    95  S ZN2=$P(ZTOKEN,",",4) ; SECOND NUMBER
    96  S ZN2=$P(ZN2,")",1) ; GET RID OF )
    97  S ZG=$NA(^TMP("ORWCHART",ZN1,ZIP,ZN2)) ; BUILD THE GLOBAL NAME
    98  I $G(@ZG)'="" S ZDFN=@ZG ; ACCESS THE GLOBAL
    99  S ^TMP("GPL","FIRSTDFN")=ZDFN
    100  S ^TMP("GPL","FIRSTGLB")=ZG
    101  Q ZDFN
    102  ;
    103 GETPATIENTLIST(sessid) ;
    104  D PSEUDO
    105  D LISTALL^ORWPT(.RTN,"NAME","1")
    106  N ZI
    107  S ZI=""
    108  F  S ZI=$O(RTN(ZI)) Q:ZI=""  D  ;
    109  . S data(ZI,"DFN")=$P(RTN(ZI),"^",1)
    110  . S data(ZI,"Name")=$P(RTN(ZI),"^",2)
    111  ; ZWR data
    112  ;S data(1,"DFN")=$P(RTN(1),"^",1)
    113  ;S data(1,"Name")=$P(RTN(1),"^",2)
    114  d deleteFromSession^%zewdAPI("patients",sessid)
    115  d createDataTableStore^%zewdYUIRuntime(.data,"patients",sessid)
    116  ;d mergeArrayToSession^%zewdAPI(.data,"patients",sessid)
    117  Q ""
    118  ;
    119 PSEUDO
    120  S U="^"
    121  S DILOCKTM=3
    122  S DISYS=19
    123  S DT=3100219
    124  S DTIME=999
    125  S DUZ=10
    126  S DUZ(0)="@"
    127  S DUZ(1)=""
    128  S DUZ(2)=1
    129  S DUZ("AG")="V"
    130  S DUZ("BUF")=1
    131  S DUZ("LANG")=""
    132  ;S IO="/dev/pts/2"
    133  ;S IO(0)="/dev/pts/2"
    134  ;S IO(1,"/dev/pts/2")=""
    135  ;S IO("ERROR")=""
    136  ;S IO("HOME")="41^/dev/pts/2"
    137  ;S IO("ZIO")="/dev/pts/2"
    138  ;S IOBS="$C(8)"
    139  ;S IOF="#,$C(27,91,50,74,27,91,72)"
    140  ;S SIOM=80
    141  Q
    142  ;
    143 PSEUDO2 ; FAKE LOGIN SETS SOME LOCAL VARIABLE TO FOOL FILEMAN
    144  S DILOCKTM=3
    145  S DISYS=19
    146  S DT=3100112
    147  S DTIME=9999
    148  S DUZ=10000000020
    149  S DUZ(0)="@"
    150  S DUZ(1)=""
    151  S DUZ(2)=67
    152  S DUZ("AG")="E"
    153  S DUZ("BUF")=1
    154  S DUZ("LANG")=1
    155  S IO="/dev/pts/0"
    156  ;S IO(0)="/dev/pts/0"
    157  ;S IO(1,"/dev/pts/0")=""
    158  ;S IO("ERROR")=""
    159  ;S IO("HOME")="50^/dev/pts/0"
    160  ;S IO("ZIO")="/dev/pts/0"
    161  ;S IOBS="$C(8)"
    162  ;S IOF="!!!!!!!!!!!!!!!!!!!!!!!!,#,$C(27,91,50,74,27,91,72)"
    163  ;S IOM=80
    164  ;S ION="GTM/UNIX TELNET"
    165  ;S IOS=50
    166  ;S IOSL=24
    167  ;S IOST="C-VT100"
    168  ;S IOST(0)=9
    169  ;S IOT="VTRM"
    170  ;S IOXY="W $C(27,91)_((DY+1))_$C(59)_((DX+1))_$C(72)"
    171  S U="^"
    172  S X="1;DIC(4.2,"
    173  S XPARSYS="1;DIC(4.2,"
    174  S XQXFLG="^^XUP"
    175  S Y="DEV^VISTA^hollywood^VISTA:hollywood"
    176  Q
    177  ;
     2        ;;1.0;C0C;;Mar 1, 2010;Build 1
     3gpltest2        ; experiment with sending a CCR to an ewd page
     4        N ZI
     5        S ZI=""
     6        D PSEUDO
     7        N ZIO
     8        S ZIO=IO
     9        S IO="/dev/null"
     10        OPEN IO
     11        U IO
     12        N G
     13        S G=$$URLTOKEN^C0CEWD
     14        D CCRRPC^C0CCCR(.GPL,2)
     15        S IO=ZIO
     16        OPEN IO
     17        U IO
     18        K GPL(0)
     19        F  S ZI=$O(GPL(ZI)) Q:ZI=""  W GPL(ZI),!
     20        Q
     21        ;
     22gpltest ; experiment with sending a CCR to an ewd page
     23        N ZI
     24        S ZI=""
     25        K ^GPL(0)
     26        S ^GPL(2)="<?xml-stylesheet type=""text/xsl"" href=""/resources/ccr.xsl""?>"
     27        F  S ZI=$O(^GPL(ZI)) Q:ZI=""  W ^GPL(ZI),!
     28        Q
     29        ;
     30TEST(sessid);   
     31        d setSessionValue^%zewdAPI("person.Name","Rob",sessid)
     32        d setSessionValue^%zewdAPI("person.DateOfBirth","13/06/55",sessid)
     33        d setSessionValue^%zewdAPI("person.Address.PostCode","SW1 3QA",sessid)
     34        d setSessionValue^%zewdAPI("person.Address.Line1","1 The Street",sessid)
     35        d setSessionValue^%zewdAPI("person.Address.2.hello","world",sessid)
     36        d setJSONValue^%zewdAPI("json","person",sessid)
     37        Q ""
     38       
     39PARSE(INXML,INDOC)      ;CALL THE EWD PARSER ON INXML, PASSED BY NAME
     40        ; INDOC IS PASSED AS THE DOCUMENT NAME TO EWD
     41        ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY EWD
     42        N ZR
     43        M ^CacheTempEWD($j)=@INXML ;
     44        S ZR=$$parseDocument^%zewdHTMLParser(INDOC)
     45        Q ZR
     46        ;
     47TEST2(sessid)   ; try to put a ccr in the session
     48        S U="^"
     49        D PSEUDO ; FAKE LOGIN
     50        S ZIO=$IO
     51        S DEV="/dev/null"
     52        O DEV U DEV
     53        N G
     54        N ZDFN
     55        S ZDFN=$$getSessionValue^%zewdAPI("vista.dfn",sessid)
     56        I ZDFN="" S ZDFN=2
     57        ;K ^TMP("GPL")
     58        ;M ^TMP("GPL")=^%zewdSession("session",sessid)
     59        D CCRRPC^C0CCCR(.GPL,ZDFN)
     60        K GPL(0)   
     61        S GPL(2)="<?xml-stylesheet type=""text/xsl"" href=""/resources/ccr.xsl""?>"
     62        C DEV U ZIO
     63        ;M ^CacheTempEWD($j)=GPL
     64        S DOCNAME="CCR"
     65        ;ZWR GPL
     66        ;S ZR=$$parseDocument^%zewdHTMLParser(DOCNAME)
     67        ;d setSessionValues^%zewdAPI(DOCNAME,GPL,sessid)
     68        d mergeArrayToSession^%zewdAPI(.GPL,DOCNAME,sessid)
     69        Q ""
     70        ;
     71INITSES(sessid) ;initialize an EWD/CPRS session
     72        K ^TMP("GPL")
     73        ;M ^TMP("GPL")=^%zewdSession("session",sessid)
     74        N ZT,ZDFN
     75        S ZT=$$URLTOKEN^C0CEWD(sessid)
     76        ;S ^TMP("GPL")=ZT
     77        d trace^%zewdAPI("*********************ZT="_ZT)
     78        S ZDFN=$$PRSEORTK(ZT) ; PARSE THE TOKEN AND LOOK UP THE DFN
     79        S ^TMP("GPL","DFN")=ZDFN
     80        I ZDFN=0 S DFN=2 ; DEFAULT TEST PATIENT
     81        D setSessionValue^%zewdAPI("vista.dfn",ZDFN,sessid)
     82        ;M ^TMP("GPL","request")=requestArray
     83        ;D PSEUDO
     84        ;D ^%ZTER
     85        q ""
     86        ;
     87PRSEORTK(ZTOKEN)        ;PARSES THE TOKEN SENT BY CPRS AND RETURNS THE DFN
     88        ; OF THE PATIENT ; HERE'S WHAT THE TOKEN LOOKS LIKE:
     89        ; ^TMP('ORWCHART',6547,'192.168.169.8',002E0FE6)
     90        N ZX,ZN1,ZIP,ZN2,ZDFN,ZG
     91        S ZDFN=0 ; DEFAULT RETURN
     92        S ZN1=$P(ZTOKEN,",",2) ; FIRST NUMBER
     93        S ZIP=$P(ZTOKEN,",",3) ; IP NUMBER
     94        S ZIP=$P(ZIP,"'",2) ; GET RID OF '
     95        S ZN2=$P(ZTOKEN,",",4) ; SECOND NUMBER
     96        S ZN2=$P(ZN2,")",1) ; GET RID OF )
     97        S ZG=$NA(^TMP("ORWCHART",ZN1,ZIP,ZN2)) ; BUILD THE GLOBAL NAME
     98        I $G(@ZG)'="" S ZDFN=@ZG ; ACCESS THE GLOBAL
     99        S ^TMP("GPL","FIRSTDFN")=ZDFN
     100        S ^TMP("GPL","FIRSTGLB")=ZG
     101        Q ZDFN
     102        ;
     103GETPATIENTLIST(sessid)  ;
     104        D PSEUDO
     105        D LISTALL^ORWPT(.RTN,"NAME","1")
     106        N ZI
     107        S ZI=""
     108        F  S ZI=$O(RTN(ZI)) Q:ZI=""  D  ;
     109        . S data(ZI,"DFN")=$P(RTN(ZI),"^",1)
     110        . S data(ZI,"Name")=$P(RTN(ZI),"^",2)
     111        ; ZWR data
     112        ;S data(1,"DFN")=$P(RTN(1),"^",1)
     113        ;S data(1,"Name")=$P(RTN(1),"^",2)
     114        d deleteFromSession^%zewdAPI("patients",sessid)
     115        d createDataTableStore^%zewdYUIRuntime(.data,"patients",sessid)
     116        ;d mergeArrayToSession^%zewdAPI(.data,"patients",sessid)
     117        Q ""
     118        ;
     119PSEUDO 
     120        S U="^"
     121        S DILOCKTM=3
     122        S DISYS=19
     123        S DT=3100219
     124        S DTIME=999
     125        S DUZ=10
     126        S DUZ(0)="@"
     127        S DUZ(1)=""
     128        S DUZ(2)=1
     129        S DUZ("AG")="V"
     130        S DUZ("BUF")=1
     131        S DUZ("LANG")=""
     132        ;S IO="/dev/pts/2"
     133        ;S IO(0)="/dev/pts/2"
     134        ;S IO(1,"/dev/pts/2")=""
     135        ;S IO("ERROR")=""
     136        ;S IO("HOME")="41^/dev/pts/2"
     137        ;S IO("ZIO")="/dev/pts/2"
     138        ;S IOBS="$C(8)"
     139        ;S IOF="#,$C(27,91,50,74,27,91,72)"
     140        ;S SIOM=80
     141        Q
     142        ;
     143PSEUDO2 ; FAKE LOGIN SETS SOME LOCAL VARIABLE TO FOOL FILEMAN
     144        S DILOCKTM=3
     145        S DISYS=19
     146        S DT=3100112
     147        S DTIME=9999
     148        S DUZ=10000000020
     149        S DUZ(0)="@"
     150        S DUZ(1)=""
     151        S DUZ(2)=67
     152        S DUZ("AG")="E"
     153        S DUZ("BUF")=1
     154        S DUZ("LANG")=1
     155        S IO="/dev/pts/0"
     156        ;S IO(0)="/dev/pts/0"
     157        ;S IO(1,"/dev/pts/0")=""
     158        ;S IO("ERROR")=""
     159        ;S IO("HOME")="50^/dev/pts/0"
     160        ;S IO("ZIO")="/dev/pts/0"
     161        ;S IOBS="$C(8)"
     162        ;S IOF="!!!!!!!!!!!!!!!!!!!!!!!!,#,$C(27,91,50,74,27,91,72)"
     163        ;S IOM=80
     164        ;S ION="GTM/UNIX TELNET"
     165        ;S IOS=50
     166        ;S IOSL=24
     167        ;S IOST="C-VT100"
     168        ;S IOST(0)=9
     169        ;S IOT="VTRM"
     170        ;S IOXY="W $C(27,91)_((DY+1))_$C(59)_((DX+1))_$C(72)"
     171        S U="^"
     172        S X="1;DIC(4.2,"
     173        S XPARSYS="1;DIC(4.2,"
     174        S XQXFLG="^^XUP"
     175        S Y="DEV^VISTA^hollywood^VISTA:hollywood"
     176        Q
     177        ;
  • ccr/branches/ohum/p/C0CEWD.m

    r1332 r1333  
    11C0CEWD    ; CCDCCR/GPL - CCR EWD utilities; 1/6/11
    2         ;;0.1;CCDCCR;nopatch;noreleasedate;Build 77
     2        ;;0.1;CCDCCR;nopatch;noreleasedate;Build 1
    33        ;Copyright 2011 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CEWD1.m

    r1332 r1333  
    1 C0CEWD1   ; CCDCCR/GPL - CCR FILEMAN utilities; 12/6/08
    2  ;;0.1;CCDCCR;nopatch;noreleasedate
    3  ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  Q
    21  ;
    22 TEST(filepath) ; filepath IS THE PATH/FILE TO BE READ IN
    23  i $g(^%ZISH)["" d  ; if the VistA Kernal routine %ZISH exists
    24  . n zfile,zpath,ztmp s (zfile,zpath,ztmp)=""
    25  . s zfile=$re($p($re(filepath),"/",1)) ;file name
    26  . s zpath=$p(filepath,zfile,1) ; file path
    27  . s ztmp=$na(^CacheTempEWD($j,0))
    28  . s ok=$$FTG^%ZISH(zpath,zfile,ztmp,2) ; import the file incrementing subscr 2
    29  q
    30  ;
    31 TEST2 ;
    32  s zfilepath="/home/vademo2/CCR/PAT_780_CCR_V1_0_17.xml"
    33  ;s ok=$$gtmImportFile^%zewdHTMLParser(zfilepath)
    34  s ok=$$LOAD(zfilepath) ;load the XML file to the EWD global
    35  s ok=$$parseDocument^%zewdHTMLParser("DerekDOM",0)
    36  ;s ok=$$parseXMLFile^%zewdAPI(zfilepath,"fourthDOM")
    37  w ok,!
    38  q
    39  ;
    40 LOAD(filepath) ; load an xml file into the EWD global for DOM processing
    41  ; need to call s error=$$parseDocument^%zewdHTMLParser(docName,isHTML)
    42  ; after to process it to the DOM - isHTML=0 for XML files
    43  n i
    44  i $g(^%ZISH)["" d  QUIT i ; if VistA Kernal routine %ZISH exists - gpl 2/23/09
    45  . n zfile,zpath,ztmp,zok s (zfile,zpath,ztmp)=""
    46  . s zfile=$re($p($re(filepath),"/",1)) ;file name
    47  . s zpath=$p(filepath,zfile,1) ; file path
    48  . s ztmp=$na(^CacheTempEWD($j,0))
    49  . s zok=$$FTG^%ZISH(zpath,zfile,ztmp,2) ; import the file increment subscr 2
    50  . s i=$o(^CacheTempEWD($j,""),-1) ; highest line number
    51  q i
    52  ;
    53 Q(ZQ,ZD) ; SEND QUERY ZQ TO DOM ZD AND DIPLAY NODES RETURNED
    54  I '$D(ZD) S ZD="DerekDOM"
    55  s error=$$select^%zewdXPath(ZQ,ZD,.nodes) ;
    56  d displayNodes^%zewdXPath(.nodes)
    57  q
    58  ;
    59 GET1URL0(URL) ;
    60  s ok=$$httpGET^%zewdGTM(URL,.gpl)
    61  D INDEX^C0CXPATH("gpl","gpl2")
    62  W !,"S URL=""",URL,"""",!
    63  S G=""
    64  F  S G=$O(gpl2(G)) Q:G=""  D  ;
    65  . W " S VDX(""",G,""")=""",gpl2(G),"""",!
    66  W !
    67  Q
     1C0CEWD1   ; CCDCCR/GPL - CCR FILEMAN utilities; 12/6/08
     2        ;;0.1;CCDCCR;nopatch;noreleasedate;Build 1
     3        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        Q
     21        ;
     22TEST(filepath)  ; filepath IS THE PATH/FILE TO BE READ IN
     23        i $g(^%ZISH)["" d  ; if the VistA Kernal routine %ZISH exists
     24        . n zfile,zpath,ztmp s (zfile,zpath,ztmp)=""
     25        . s zfile=$re($p($re(filepath),"/",1)) ;file name
     26        . s zpath=$p(filepath,zfile,1) ; file path
     27        . s ztmp=$na(^CacheTempEWD($j,0))
     28        . s ok=$$FTG^%ZISH(zpath,zfile,ztmp,2) ; import the file incrementing subscr 2
     29        q
     30        ;
     31TEST2   ;
     32        s zfilepath="/home/vademo2/CCR/PAT_780_CCR_V1_0_17.xml"
     33        ;s ok=$$gtmImportFile^%zewdHTMLParser(zfilepath)
     34        s ok=$$LOAD(zfilepath) ;load the XML file to the EWD global
     35        s ok=$$parseDocument^%zewdHTMLParser("DerekDOM",0)
     36        ;s ok=$$parseXMLFile^%zewdAPI(zfilepath,"fourthDOM")
     37        w ok,!
     38        q
     39        ;
     40LOAD(filepath)  ; load an xml file into the EWD global for DOM processing
     41        ; need to call s error=$$parseDocument^%zewdHTMLParser(docName,isHTML)
     42        ; after to process it to the DOM - isHTML=0 for XML files
     43        n i
     44        i $g(^%ZISH)["" d  QUIT i ; if VistA Kernal routine %ZISH exists - gpl 2/23/09
     45        . n zfile,zpath,ztmp,zok s (zfile,zpath,ztmp)=""
     46        . s zfile=$re($p($re(filepath),"/",1)) ;file name
     47        . s zpath=$p(filepath,zfile,1) ; file path
     48        . s ztmp=$na(^CacheTempEWD($j,0))
     49        . s zok=$$FTG^%ZISH(zpath,zfile,ztmp,2) ; import the file increment subscr 2
     50        . s i=$o(^CacheTempEWD($j,""),-1) ; highest line number
     51        q i
     52        ;
     53Q(ZQ,ZD)        ; SEND QUERY ZQ TO DOM ZD AND DIPLAY NODES RETURNED
     54        I '$D(ZD) S ZD="DerekDOM"
     55        s error=$$select^%zewdXPath(ZQ,ZD,.nodes) ;
     56        d displayNodes^%zewdXPath(.nodes)
     57        q
     58        ;
     59GET1URL0(URL)   ;
     60        s ok=$$httpGET^%zewdGTM(URL,.gpl)
     61        D INDEX^C0CXPATH("gpl","gpl2")
     62        W !,"S URL=""",URL,"""",!
     63        S G=""
     64        F  S G=$O(gpl2(G)) Q:G=""  D  ;
     65        . W " S VDX(""",G,""")=""",gpl2(G),"""",!
     66        W !
     67        Q
  • ccr/branches/ohum/p/C0CFM1.m

    r1332 r1333  
    11C0CFM1    ; CCDCCR/GPL - CCR FILEMAN utilities; 12/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CFM2.m

    r1332 r1333  
    11C0CFM2    ; CCDCCR/GPL - CCR FILEMAN utilities; 12/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CFM3.m

    r1332 r1333  
    1 C0CFM3   ; CCDCCR/GPL - CCR FILEMAN utilities; 12/6/08
    2  ;;0.1;CCDCCR;nopatch;noreleasedate
    3  ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  W "This is the CCR FILEMAN Utility Library ",!
    21  ; THIS SET OF ROUTINES USE CCR E2 (^C0CE(, FILE 171.101) INSTEAD OF
    22  ; CCR ELEMENTS (^C0C(179.201,
    23  ; E2 IS A SIMPLIFICATION OF CCR ELEMENTS WHERE SUB-ELEMENTS ARE
    24  ; AT THE TOP LEVEL. OCCURANCE, THE 4TH PART OF THE KEY IS NOW FREE TEXT
    25  ; AND HAS THE FORM X;Y FOR SUB-ELEMENTS
    26  ; ALL SUB-VARIABLES HAVE BEEN REMOVED
    27  W !
    28  Q
    29  ;
    30 RIMTBL(ZWHICH) ; PUT ALL PATIENT IN RIMTBL ZWHICH INTO THE CCR ELEMENTS FILE
    31  ; '
    32  I '$D(RIMBASE) D ASETUP^GPLRIMA ; FOR COMMAND LINE CALLS
    33  N ZI,ZJ,ZC,ZPATBASE
    34  S ZPATBASE=$NA(@RIMBASE@("RIMTBL","PATS",ZWHICH))
    35  S ZI=""
    36  F ZJ=0:0 D  Q:$O(@ZPATBASE@(ZI))=""  ; TIL END
    37  . S ZI=$O(@ZPATBASE@(ZI))
    38  . D PUTRIM(ZI) ; EXPORT THE PATIENT TO A FILE
    39  Q
    40  ;
    41 PUTRIM(DFN,ZWHICH) ;DFN IS PATIENT , WHICH IS ELEMENT TYPE
    42  ;
    43  S C0CGLB=$NA(^TMP("C0CRIM","VARS",DFN))
    44  I '$D(ZWHICH) S ZWHICH="ALL"
    45  I ZWHICH'="ALL" D  ; SINGLE SECTION REQUESTED
    46  . S C0CVARS=$NA(@C0CGLB@(ZWHICH))
    47  . D PUTRIM1(DFN,ZWHICH,C0CVARS) ; IF ONE SECTION
    48  E  D  ; MULTIPLE SECTIONS
    49  . S C0CVARS=$NA(@C0CGLB)
    50  . S C0CI=""
    51  . F  S C0CI=$O(@C0CVARS@(C0CI)) Q:C0CI=""  D  ;FOR EACH SECTION
    52  . . S C0CVARSN=$NA(@C0CVARS@(C0CI)) ; GRAB ONE SECTION
    53  . . D PUTRIM1(DFN,C0CI,C0CVARSN)
    54  Q
    55  ;
    56 PUTRIM1(DFN,ZZTYP,ZVARS) ; PUT ONE SECTION OF VARIABLES INTO CCR ELEMENTS
    57  ; ZVARS IS PASSED BY NAME AN HAS THE FORM @ZVARS@(1,"VAR1")="VAL1"
    58  S C0CX=0
    59  F  S C0CX=$O(@ZVARS@(C0CX)) Q:C0CX=""  D  ; FOR EACH OCCURANCE
    60  . W "ZOCC=",C0CX,!
    61  . K C0CMDO ; MULTIPLE SUBELEMENTS FOR THIS OCCURANCE PASSED BY NAME
    62  . S C0CV=$NA(@ZVARS@(C0CX)) ; VARIABLES FOR THIS OCCURANCE
    63  . D PUTELS(DFN,ZZTYP,C0CX,C0CV) ; PUT THEM TO THE CCR ELEMENTS FILE
    64  . I $D(C0CMDO) D  ; MULTIPLES TO HANDLE (THIS IS INSTEAD OF RECURSION :()
    65  . . N ZZCNT,ZZC0CI,ZZVALS,ZT,ZZCNT,ZV
    66  . . S ZZCNT=0
    67  . . S ZZC0CI=0
    68  . . S ZZVALS=$NA(@C0CMDO@("M")) ; LOCATION OF THIS MULTILPE
    69  . . S ZT=$O(@ZZVALS@("")) ; ELEMENT TYPE OF MULTIPLE
    70  . . S ZZVALS=$NA(@ZZVALS@(ZT)) ; PAST MULTIPLE TYPE INDICATOR
    71  . . W "MULTIPLE:",ZZVALS,!
    72  . . ;B
    73  . . F  S ZZC0CI=$O(@ZZVALS@(ZZC0CI)) Q:ZZC0CI=""  D  ; EACH MULTIPLE
    74  . . . S ZZCNT=ZZCNT+1 ;INCREMENT COUNT
    75  . . . W "COUNT:",ZZCNT,!
    76  . . . S ZV=$NA(@ZZVALS@(ZZC0CI))
    77  . . . D PUTELS(DFN,ZT,C0CX_";"_ZZCNT,ZV)
    78  Q
    79  ;
    80 PUTELS(DFN,ZTYPE,ZOCC,ZVALS) ; PUT CCR VALUES INTO THE CCR ELEMENTS FILE
    81  ; 171.601, ^C0CE  DFN IS THE PATIENT IEN PASSED BY VALUE
    82  ; ZTYPE IS THE NODE TYPE IE RESULTS,PROBLEMS PASSED BY VALUE
    83  ; ZOCC IS THE OCCURANCE NUMBER IE PROBLEM NUMBER 1,2,3 ETC
    84  ; ZVALS ARE THE VARIABLES AND VALUES PASSED BY NAME AND IN THE FORM
    85  ; @ZVALS@("VAR1")="VALUE1" FOR ALL VARIABLES IN THIS ELEMENT
    86  ; AND @ZVALS@("M",SUBOCCUR,"VAR2")="VALUE2" FOR SUB VARIABLES
    87  ;
    88  N ZSRC,PATN,ZTYPN,XD0,ZTYP
    89  S ZSRC=1 ; CCR SOURCE IS ASSUMED TO BE THIS EHR, WHICH IS ALWAYS SOURCE 1
    90  ; PUT THIS IN PARAMETERS - SO SOURCE NUMBER FOR PROCESSING IN CONFIGURABLE
    91  N C0CF S C0CF=171.601 ; FILE AT ELEMENT LEVEL
    92  N C0CFV S C0CFV=171.6011 ; FILE AT VARIABLE LVL
    93  N C0CFDA
    94  N ZTYPN S ZTYPN=$O(^C0CDIC(170.101,"B",ZTYPE,""))
    95  W "ZTYPE: ",ZTYPE," ",ZTYPN,!
    96  N ZVARN ; IEN OF VARIABLE BEING PROCESSED
    97  ;N C0CFDA ; FDA FOR CCR ELEMENT UPDATE
    98  S C0CFDA(C0CF,"+1,",.01)=ZTYPN
    99  S C0CFDA(C0CF,"+1,",.02)=DFN
    100  S C0CFDA(C0CF,"+1,",.03)=ZSRC
    101  S C0CFDA(C0CF,"+1,",.04)=" "_ZOCC ;CREATE OCCURANCE with leading space
    102  D UPDIE ; CREATE THE RECORD
    103  S C0CIEN=$O(^C0CE4("C",DFN,ZSRC,ZTYPN," "_ZOCC,""))
    104  N ZCNT,ZC0CI,ZVARN,C0CZ1
    105  S ZCNT=0
    106  S ZC0CI="" ;
    107  F  S ZC0CI=$O(@ZVALS@(ZC0CI)) Q:ZC0CI=""  D  ;
    108  . I ZC0CI'="M" D  ; NOT A SUBVARIABLE
    109  . . S ZCNT=ZCNT+1 ;INCREMENT COUNT
    110  . . S ZVARN=$$VARPTR(ZC0CI,ZTYPE) ;GET THE POINTER TO THE VAR IN THE CCR DICT
    111  . . ; WILL ALLOW FOR LAYGO IF THE VARIABLE IS NOT FOUND
    112  . . S C0CFDA(C0CFV,"+"_ZCNT_","_C0CIEN_",",.01)=ZVARN
    113  . . S C0CFDA(C0CFV,"+"_ZCNT_","_C0CIEN_",",1)=@ZVALS@(ZC0CI)
    114  . E  D  ; THIS IS A SUBELEMENT
    115  . . ;PUT THE FOLLOWING BACK TO USE RECURSION
    116  . . ;N ZZCNT,ZZC0CI,ZZVALS,ZT,ZZCNT,ZV
    117  . . ;S ZZCNT=0
    118  . . ;S ZZC0CI=0
    119  . . ;S ZZVALS=$NA(@ZVALS@("M")) ; LOCATION OF THIS MULTILPE
    120  . . ;S ZT=$O(@ZZVALS@("")) ; ELEMENT TYPE OF MULTIPLE
    121  . . ;S ZZVALS=$NA(@ZZVALS@(ZT)) ; PAST MULTIPLE TYPE INDICATOR
    122  . . ;W "MULTIPLE:",ZZVALS,!
    123  . . ;B
    124  . . ;F  S ZZC0CI=$O(@ZZVALS@(ZZC0CI)) Q:ZZC0CI=""  D  ; EACH MULTIPLE
    125  . . ;. S ZZCNT=ZZCNT+1 ;INCREMENT COUNT
    126  . . ;. W "COUNT:",ZZCNT,!
    127  . . ;. S ZV=$NA(@ZZVALS@(ZZC0CI))
    128  . . ;. D PUTELS(DFN,ZT,ZOCC_";"_ZZCNT,ZV) ; PUT THIS BACK TO DEBUG RECURSION
    129  . . S C0CMDO=ZVALS ; FLAG TO HANDLE MULTIPLES (INSTEAD OF RECURSION)
    130  D UPDIE ; UPDATE
    131  Q
    132  ;
    133 UPDIE ; INTERNAL ROUTINE TO CALL UPDATE^DIE AND CHECK FOR ERRORS
    134  K ZERR
    135  D CLEAN^DILF
    136  D UPDATE^DIE("","C0CFDA","","ZERR")
    137  I $D(ZERR) D  ;
    138  . W "ERROR",!
    139  . ZWR ZERR
    140  . B
    141  K C0CFDA
    142  Q
    143  ;
    144 PUTELSOLD(DFN,ZTYPE,ZOCC,ZVALS) ; PUT CCR VALUES INTO THE CCR ELEMENTS FILE
    145  ; 171.101, ^C0CE  DFN IS THE PATIENT IEN PASSED BY VALUE
    146  ; ZTYPE IS THE NODE TYPE IE RESULTS,PROBLEMS PASSED BY VALUE
    147  ; ZOCC IS THE OCCURANCE NUMBER IE PROBLEM NUMBER 1,2,3 ETC
    148  ; ZVALS ARE THE VARIABLES AND VALUES PASSED BY NAME AND IN THE FORM
    149  ; @ZVALS@("VAR1")="VALUE1" FOR ALL VARIABLES IN THIS ELEMENT
    150  ; AND @ZVALS@("M",SUBOCCUR,"VAR2")="VALUE2" FOR SUB VARIABLES
    151  ;
    152  S ZSRC=1 ; CCR SOURCE IS ASSUMED TO BE THIS EHR, WHICH IS ALWAYS SOURCE 1
    153  ; PUT THIS IN PARAMETERS - SO SOURCE NUMBER FOR PROCESSING IN CONFIGURABLE
    154  N ZF,ZFV S ZF=171.101 S ZFV=171.1011
    155  ;S ZSUBF=171.20122 ;FILE AND SUBFILE NUMBERS
    156  ;N ZSFV S ZSFV=171.201221 ; SUBFILE VARIABLE FILE NUMBER
    157  N ZTYPN S ZTYPN=$O(^C0CDIC(170.101,"B",ZTYPE,""))
    158  W "ZTYPE: ",ZTYPE," ",ZTYPN,!
    159  N ZVARN ; IEN OF VARIABLE BEING PROCESSED
    160  ;N C0CFDA ; FDA FOR CCR ELEMENT UPDATE
    161  K C0CFDA
    162  S C0CFDA(ZF,"?+1,",.01)=DFN
    163  S C0CFDA(ZF,"?+1,",.02)=ZSRC
    164  S C0CFDA(ZF,"?+1,",.03)=ZTYPN
    165  S C0CFDA(ZF,"?+1,",.04)=" "_ZOCC ;CREATE OCCURANCE
    166  K ZERR
    167  ;B
    168  D UPDATE^DIE("","C0CFDA","","ZERR") ;ASSIGN RECORD NUMBER
    169  I $D(ZERR) B  ;OOPS
    170  K C0CFDA
    171  S ZD0=$O(^C0CE("C",DFN,ZSRC,ZTYPN,ZOCC,""))
    172  W "RECORD NUMBER: ",ZD0,!
    173  ;B
    174  S ZCNT=0
    175  S ZC0CI="" ;
    176  F  S ZC0CI=$O(@ZVALS@(ZC0CI)) Q:ZC0CI=""  D  ;
    177  . I ZC0CI'="M" D  ; NOT A SUBVARIABLE
    178  . . S ZCNT=ZCNT+1 ;INCREMENT COUNT
    179  . . S ZVARN=$$VARPTR(ZC0CI,ZTYPE) ;GET THE POINTER TO THE VAR IN THE CCR DICT
    180  . . ; WILL ALLOW FOR LAYGO IF THE VARIABLE IS NOT FOUND
    181  . . S C0CFDA(ZFV,"?+"_ZCNT_","_ZD0_",",.01)=ZVARN
    182  . . S C0CFDA(ZFV,"?+"_ZCNT_","_ZD0_",",1)=@ZVALS@(ZC0CI)
    183  . . ;S C0CFDA(ZSFV,"+1,"_DFN_","_ZSRC_","_ZTYPN_","_ZOCC_",",.01)=ZVARN
    184  . . ;S C0CFDA(ZSFV,"+1,"_DFN_","_ZSRC_","_ZTYPN_","_ZOCC_",",1)=@ZVALS@(ZC0CI)
    185  ;S GT1(170,"?+1,",.01)="ZZZ NEW MEDVEHICLETEXT"
    186  ;S GT1(170,"?+1,",12)="DIR"
    187  ;S GT1(171.201221,"?+1,1,5,1,",.01)="ZZZ NEW MEDVEHICLETEXT"
    188  ;S GT1(171.201221,"+1,1,5,1,",1)="THIRD NEW MED DIRECTION TEXT"
    189  D CLEAN^DILF
    190  D UPDATE^DIE("","C0CFDA","","ZERR")
    191  I $D(ZERR) D  ;
    192  . W "ERROR",!
    193  . ZWR ZERR
    194  . B
    195  K C0CFDA
    196  Q
    197  ;
    198 VARPTR(ZVAR,ZTYP) ;EXTRINSIC WHICH RETURNS THE POINTER TO ZVAR IN THE
    199  ; CCR DICTIONARY. IT IS LAYGO, AS IT WILL ADD THE VARIABLE TO
    200  ; THE CCR DICTIONARY IF IT IS NOT THERE. ZTYP IS REQUIRED FOR LAYGO
    201  ;
    202  N ZCCRD,ZVARN,C0CFDA2
    203  S ZCCRD=170 ; FILE NUMBER FOR CCR DICTIONARY
    204  S ZVARN=$O(^C0CDIC(170,"B",ZVAR,"")) ;FIND IEN OF VARIABLE
    205  I ZVARN="" D  ; VARIABLE NOT IN CCR DICTIONARY - ADD IT
    206  . I '$D(ZTYP) D  Q  ; WON'T ADD A VARIABLE WITHOUT A TYPE
    207  . . W "CANNOT ADD VARIABLE WITHOUT A TYPE: ",ZVAR,!
    208  . S C0CFDA2(ZCCRD,"?+1,",.01)=ZVAR ; NAME OF NEW VARIABLE
    209  . S C0CFDA2(ZCCRD,"?+1,",12)=ZTYP ; TYPE EXTERNAL OF NEW VARIABLE
    210  . D CLEAN^DILF ;MAKE SURE ERRORS ARE CLEAN
    211  . D UPDATE^DIE("E","C0CFDA2","","ZERR") ;ADD VAR TO CCR DICTIONARY
    212  . I $D(ZERR) D  ; LAYGO ERROR
    213  . . W "ERROR ADDING "_ZC0CI_" TO CCR DICTIONARY",!
    214  . E  D  ;
    215  . . D CLEAN^DILF ; CLEAN UP
    216  . . S ZVARN=$O(^C0CDIC(170,"B",ZVAR,"")) ;FIND IEN OF VARIABLE
    217  . . W "ADDED ",ZVAR," TO CCR DICTIONARY, IEN:",ZVARN,!
    218  Q ZVARN
    219  ;
    220 BLDTYPS ; ROUTINE TO POPULATE THE CCR NODE TYPES FILE (^C0CDIC(170.101,)
    221  ; THE CCR DICTIONARY (^C0CDIC(170, ) HAS MOST OF WHAT'S NEEDED
    222  ;
    223  N C0CDIC,C0CNODE ;
    224  S C0CDIC=$$FILEREF^C0CRNF(170) ; CLOSED FILE REFERENCE TO THE CCR DICTIONARY
    225  S C0CNODE=$$FILEREF^C0CRNF(170.101) ; CLOSED REF TO CCR NODE TYPE FILE
    226  Q
    227  ;
    228 FIXSEC ;FIX THE SECTION FIELD OF THE CCR DICTIONARY.. IT HAS BEEN REDEFINED
    229  ; AS A POINTER TO CCR NODE TYPE INSTEAD OF BEING A SET
    230  ; THE SET VALUES ARE PRESERVED IN ^KBAI("SECTION") TO FACILITATE THIS
    231  ; CONVERSION
    232  ;N C0CC,C0CI,C0CJ,C0CN,C0CZX
    233  D FIELDS^C0CRNF("C0CC",170)
    234  S C0CI=""
    235  F  S C0CI=$O(^KBAI("SECTION",C0CI)) Q:C0CI=""  D  ; EACH SECTION
    236  . S C0CZX=""
    237  . F  S C0CZX=$O(^KBAI("SECTION",C0CI,C0CZX)) Q:C0CZX=""  D  ; EACH VARIABLE
    238  . . W "SECTION ",C0CI," VAR ",C0CZX
    239  . . S C0CV=$O(^C0CDIC(170.101,"B",C0CI,""))
    240  . . W " TYPE: ",C0CV,!
    241  . . D SETFDA("SECTION",C0CV)
    242  . . ;ZWR C0CFDA
    243  Q
    244  ;
    245 SETFDA(C0CSN,C0CSV) ; INTERNAL ROUTINE TO MAKE AN FDA ENTRY FOR FIELD C0CSN
    246  ; TO SET TO VALUE C0CSV.
    247  ; C0CFDA,C0CC,C0CZX ARE ASSUMED FROM THE CALLING ROUTINE
    248  ; C0CSN,C0CSV ARE PASSED BY VALUE
    249  ;
    250  N C0CSI,C0CSJ
    251  S C0CSI=$$ZFILE(C0CSN,"C0CC") ; FILE NUMBER
    252  S C0CSJ=$$ZFIELD(C0CSN,"C0CC") ; FIELD NUMBER
    253  S C0CFDA(C0CSI,C0CZX_",",C0CSJ)=C0CSV
    254  Q
    255 ZFILE(ZFN,ZTAB) ; EXTRINSIC TO RETURN FILE NUMBER FOR FIELD NAME PASSED
    256  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 1 OF C0CA(ZFN)
    257  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    258  I '$D(ZTAB) S ZTAB="C0CA"
    259  N ZR
    260  I $D(@ZTAB@(ZFN)) S ZR=$P(@ZTAB@(ZFN),"^",1)
    261  E  S ZR=""
    262  Q ZR
    263 ZFIELD(ZFN,ZTAB) ;EXTRINSIC TO RETURN FIELD NUMBER FOR FIELD NAME PASSED
    264  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 2 OF C0CA(ZFN)
    265  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    266  I '$D(ZTAB) S ZTAB="C0CA"
    267  N ZR
    268  I $D(@ZTAB@(ZFN)) S ZR=$P(@ZTAB@(ZFN),"^",2)
    269  E  S ZR=""
    270  Q ZR
    271  ;
    272 ZVALUE(ZFN,ZTAB) ;EXTRINSIC TO RETURN VALUE FOR FIELD NAME PASSED
    273  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF C0CA(ZFN)
    274  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    275  I '$D(ZTAB) S ZTAB="C0CA"
    276  N ZR
    277  I $D(@ZTAB@(ZFN)) S ZR=$P(@ZTAB@(ZFN),"^",3)
    278  E  S ZR=""
    279  Q ZR
    280  ;
    281 SHOWE4(DFN) ;
    282  ;
    283  N ZG
    284  S ZG=""
    285  F  S ZG=$O(^C0CE4("P",DFN,ZG)) Q:ZG=""  D  ZWR ^C0CE4(ZG,*)
    286  Q
    287  ;
     1C0CFM3    ; CCDCCR/GPL - CCR FILEMAN utilities; 12/6/08
     2        ;;0.1;CCDCCR;nopatch;noreleasedate;Build 1
     3        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        W "This is the CCR FILEMAN Utility Library ",!
     21        ; THIS SET OF ROUTINES USE CCR E2 (^C0CE(, FILE 171.101) INSTEAD OF
     22        ; CCR ELEMENTS (^C0C(179.201,
     23        ; E2 IS A SIMPLIFICATION OF CCR ELEMENTS WHERE SUB-ELEMENTS ARE
     24        ; AT THE TOP LEVEL. OCCURANCE, THE 4TH PART OF THE KEY IS NOW FREE TEXT
     25        ; AND HAS THE FORM X;Y FOR SUB-ELEMENTS
     26        ; ALL SUB-VARIABLES HAVE BEEN REMOVED
     27        W !
     28        Q
     29        ;
     30RIMTBL(ZWHICH)  ; PUT ALL PATIENT IN RIMTBL ZWHICH INTO THE CCR ELEMENTS FILE
     31        ; '
     32        I '$D(RIMBASE) D ASETUP^GPLRIMA ; FOR COMMAND LINE CALLS
     33        N ZI,ZJ,ZC,ZPATBASE
     34        S ZPATBASE=$NA(@RIMBASE@("RIMTBL","PATS",ZWHICH))
     35        S ZI=""
     36        F ZJ=0:0 D  Q:$O(@ZPATBASE@(ZI))=""  ; TIL END
     37        . S ZI=$O(@ZPATBASE@(ZI))
     38        . D PUTRIM(ZI) ; EXPORT THE PATIENT TO A FILE
     39        Q
     40        ;
     41PUTRIM(DFN,ZWHICH)      ;DFN IS PATIENT , WHICH IS ELEMENT TYPE
     42        ;
     43        S C0CGLB=$NA(^TMP("C0CRIM","VARS",DFN))
     44        I '$D(ZWHICH) S ZWHICH="ALL"
     45        I ZWHICH'="ALL" D  ; SINGLE SECTION REQUESTED
     46        . S C0CVARS=$NA(@C0CGLB@(ZWHICH))
     47        . D PUTRIM1(DFN,ZWHICH,C0CVARS) ; IF ONE SECTION
     48        E  D  ; MULTIPLE SECTIONS
     49        . S C0CVARS=$NA(@C0CGLB)
     50        . S C0CI=""
     51        . F  S C0CI=$O(@C0CVARS@(C0CI)) Q:C0CI=""  D  ;FOR EACH SECTION
     52        . . S C0CVARSN=$NA(@C0CVARS@(C0CI)) ; GRAB ONE SECTION
     53        . . D PUTRIM1(DFN,C0CI,C0CVARSN)
     54        Q
     55        ;
     56PUTRIM1(DFN,ZZTYP,ZVARS)        ; PUT ONE SECTION OF VARIABLES INTO CCR ELEMENTS
     57        ; ZVARS IS PASSED BY NAME AN HAS THE FORM @ZVARS@(1,"VAR1")="VAL1"
     58        S C0CX=0
     59        F  S C0CX=$O(@ZVARS@(C0CX)) Q:C0CX=""  D  ; FOR EACH OCCURANCE
     60        . W "ZOCC=",C0CX,!
     61        . K C0CMDO ; MULTIPLE SUBELEMENTS FOR THIS OCCURANCE PASSED BY NAME
     62        . S C0CV=$NA(@ZVARS@(C0CX)) ; VARIABLES FOR THIS OCCURANCE
     63        . D PUTELS(DFN,ZZTYP,C0CX,C0CV) ; PUT THEM TO THE CCR ELEMENTS FILE
     64        . I $D(C0CMDO) D  ; MULTIPLES TO HANDLE (THIS IS INSTEAD OF RECURSION :()
     65        . . N ZZCNT,ZZC0CI,ZZVALS,ZT,ZZCNT,ZV
     66        . . S ZZCNT=0
     67        . . S ZZC0CI=0
     68        . . S ZZVALS=$NA(@C0CMDO@("M")) ; LOCATION OF THIS MULTILPE
     69        . . S ZT=$O(@ZZVALS@("")) ; ELEMENT TYPE OF MULTIPLE
     70        . . S ZZVALS=$NA(@ZZVALS@(ZT)) ; PAST MULTIPLE TYPE INDICATOR
     71        . . W "MULTIPLE:",ZZVALS,!
     72        . . ;B
     73        . . F  S ZZC0CI=$O(@ZZVALS@(ZZC0CI)) Q:ZZC0CI=""  D  ; EACH MULTIPLE
     74        . . . S ZZCNT=ZZCNT+1 ;INCREMENT COUNT
     75        . . . W "COUNT:",ZZCNT,!
     76        . . . S ZV=$NA(@ZZVALS@(ZZC0CI))
     77        . . . D PUTELS(DFN,ZT,C0CX_";"_ZZCNT,ZV)
     78        Q
     79        ;
     80PUTELS(DFN,ZTYPE,ZOCC,ZVALS)    ; PUT CCR VALUES INTO THE CCR ELEMENTS FILE
     81        ; 171.601, ^C0CE  DFN IS THE PATIENT IEN PASSED BY VALUE
     82        ; ZTYPE IS THE NODE TYPE IE RESULTS,PROBLEMS PASSED BY VALUE
     83        ; ZOCC IS THE OCCURANCE NUMBER IE PROBLEM NUMBER 1,2,3 ETC
     84        ; ZVALS ARE THE VARIABLES AND VALUES PASSED BY NAME AND IN THE FORM
     85        ; @ZVALS@("VAR1")="VALUE1" FOR ALL VARIABLES IN THIS ELEMENT
     86        ; AND @ZVALS@("M",SUBOCCUR,"VAR2")="VALUE2" FOR SUB VARIABLES
     87        ;
     88        N ZSRC,PATN,ZTYPN,XD0,ZTYP
     89        S ZSRC=1 ; CCR SOURCE IS ASSUMED TO BE THIS EHR, WHICH IS ALWAYS SOURCE 1
     90        ; PUT THIS IN PARAMETERS - SO SOURCE NUMBER FOR PROCESSING IN CONFIGURABLE
     91        N C0CF S C0CF=171.601 ; FILE AT ELEMENT LEVEL
     92        N C0CFV S C0CFV=171.6011 ; FILE AT VARIABLE LVL
     93        N C0CFDA
     94        N ZTYPN S ZTYPN=$O(^C0CDIC(170.101,"B",ZTYPE,""))
     95        W "ZTYPE: ",ZTYPE," ",ZTYPN,!
     96        N ZVARN ; IEN OF VARIABLE BEING PROCESSED
     97        ;N C0CFDA ; FDA FOR CCR ELEMENT UPDATE
     98        S C0CFDA(C0CF,"+1,",.01)=ZTYPN
     99        S C0CFDA(C0CF,"+1,",.02)=DFN
     100        S C0CFDA(C0CF,"+1,",.03)=ZSRC
     101        S C0CFDA(C0CF,"+1,",.04)=" "_ZOCC ;CREATE OCCURANCE with leading space
     102        D UPDIE ; CREATE THE RECORD
     103        S C0CIEN=$O(^C0CE4("C",DFN,ZSRC,ZTYPN," "_ZOCC,""))
     104        N ZCNT,ZC0CI,ZVARN,C0CZ1
     105        S ZCNT=0
     106        S ZC0CI="" ;
     107        F  S ZC0CI=$O(@ZVALS@(ZC0CI)) Q:ZC0CI=""  D  ;
     108        . I ZC0CI'="M" D  ; NOT A SUBVARIABLE
     109        . . S ZCNT=ZCNT+1 ;INCREMENT COUNT
     110        . . S ZVARN=$$VARPTR(ZC0CI,ZTYPE) ;GET THE POINTER TO THE VAR IN THE CCR DICT
     111        . . ; WILL ALLOW FOR LAYGO IF THE VARIABLE IS NOT FOUND
     112        . . S C0CFDA(C0CFV,"+"_ZCNT_","_C0CIEN_",",.01)=ZVARN
     113        . . S C0CFDA(C0CFV,"+"_ZCNT_","_C0CIEN_",",1)=@ZVALS@(ZC0CI)
     114        . E  D  ; THIS IS A SUBELEMENT
     115        . . ;PUT THE FOLLOWING BACK TO USE RECURSION
     116        . . ;N ZZCNT,ZZC0CI,ZZVALS,ZT,ZZCNT,ZV
     117        . . ;S ZZCNT=0
     118        . . ;S ZZC0CI=0
     119        . . ;S ZZVALS=$NA(@ZVALS@("M")) ; LOCATION OF THIS MULTILPE
     120        . . ;S ZT=$O(@ZZVALS@("")) ; ELEMENT TYPE OF MULTIPLE
     121        . . ;S ZZVALS=$NA(@ZZVALS@(ZT)) ; PAST MULTIPLE TYPE INDICATOR
     122        . . ;W "MULTIPLE:",ZZVALS,!
     123        . . ;B
     124        . . ;F  S ZZC0CI=$O(@ZZVALS@(ZZC0CI)) Q:ZZC0CI=""  D  ; EACH MULTIPLE
     125        . . ;. S ZZCNT=ZZCNT+1 ;INCREMENT COUNT
     126        . . ;. W "COUNT:",ZZCNT,!
     127        . . ;. S ZV=$NA(@ZZVALS@(ZZC0CI))
     128        . . ;. D PUTELS(DFN,ZT,ZOCC_";"_ZZCNT,ZV) ; PUT THIS BACK TO DEBUG RECURSION
     129        . . S C0CMDO=ZVALS ; FLAG TO HANDLE MULTIPLES (INSTEAD OF RECURSION)
     130        D UPDIE ; UPDATE
     131        Q
     132        ;
     133UPDIE   ; INTERNAL ROUTINE TO CALL UPDATE^DIE AND CHECK FOR ERRORS
     134        K ZERR
     135        D CLEAN^DILF
     136        D UPDATE^DIE("","C0CFDA","","ZERR")
     137        I $D(ZERR) D  ;
     138        . W "ERROR",!
     139        . ZWR ZERR
     140        . B
     141        K C0CFDA
     142        Q
     143        ;
     144PUTELSOLD(DFN,ZTYPE,ZOCC,ZVALS) ; PUT CCR VALUES INTO THE CCR ELEMENTS FILE
     145        ; 171.101, ^C0CE  DFN IS THE PATIENT IEN PASSED BY VALUE
     146        ; ZTYPE IS THE NODE TYPE IE RESULTS,PROBLEMS PASSED BY VALUE
     147        ; ZOCC IS THE OCCURANCE NUMBER IE PROBLEM NUMBER 1,2,3 ETC
     148        ; ZVALS ARE THE VARIABLES AND VALUES PASSED BY NAME AND IN THE FORM
     149        ; @ZVALS@("VAR1")="VALUE1" FOR ALL VARIABLES IN THIS ELEMENT
     150        ; AND @ZVALS@("M",SUBOCCUR,"VAR2")="VALUE2" FOR SUB VARIABLES
     151        ;
     152        S ZSRC=1 ; CCR SOURCE IS ASSUMED TO BE THIS EHR, WHICH IS ALWAYS SOURCE 1
     153        ; PUT THIS IN PARAMETERS - SO SOURCE NUMBER FOR PROCESSING IN CONFIGURABLE
     154        N ZF,ZFV S ZF=171.101 S ZFV=171.1011
     155        ;S ZSUBF=171.20122 ;FILE AND SUBFILE NUMBERS
     156        ;N ZSFV S ZSFV=171.201221 ; SUBFILE VARIABLE FILE NUMBER
     157        N ZTYPN S ZTYPN=$O(^C0CDIC(170.101,"B",ZTYPE,""))
     158        W "ZTYPE: ",ZTYPE," ",ZTYPN,!
     159        N ZVARN ; IEN OF VARIABLE BEING PROCESSED
     160        ;N C0CFDA ; FDA FOR CCR ELEMENT UPDATE
     161        K C0CFDA
     162        S C0CFDA(ZF,"?+1,",.01)=DFN
     163        S C0CFDA(ZF,"?+1,",.02)=ZSRC
     164        S C0CFDA(ZF,"?+1,",.03)=ZTYPN
     165        S C0CFDA(ZF,"?+1,",.04)=" "_ZOCC ;CREATE OCCURANCE
     166        K ZERR
     167        ;B
     168        D UPDATE^DIE("","C0CFDA","","ZERR") ;ASSIGN RECORD NUMBER
     169        I $D(ZERR) B  ;OOPS
     170        K C0CFDA
     171        S ZD0=$O(^C0CE("C",DFN,ZSRC,ZTYPN,ZOCC,""))
     172        W "RECORD NUMBER: ",ZD0,!
     173        ;B
     174        S ZCNT=0
     175        S ZC0CI="" ;
     176        F  S ZC0CI=$O(@ZVALS@(ZC0CI)) Q:ZC0CI=""  D  ;
     177        . I ZC0CI'="M" D  ; NOT A SUBVARIABLE
     178        . . S ZCNT=ZCNT+1 ;INCREMENT COUNT
     179        . . S ZVARN=$$VARPTR(ZC0CI,ZTYPE) ;GET THE POINTER TO THE VAR IN THE CCR DICT
     180        . . ; WILL ALLOW FOR LAYGO IF THE VARIABLE IS NOT FOUND
     181        . . S C0CFDA(ZFV,"?+"_ZCNT_","_ZD0_",",.01)=ZVARN
     182        . . S C0CFDA(ZFV,"?+"_ZCNT_","_ZD0_",",1)=@ZVALS@(ZC0CI)
     183        . . ;S C0CFDA(ZSFV,"+1,"_DFN_","_ZSRC_","_ZTYPN_","_ZOCC_",",.01)=ZVARN
     184        . . ;S C0CFDA(ZSFV,"+1,"_DFN_","_ZSRC_","_ZTYPN_","_ZOCC_",",1)=@ZVALS@(ZC0CI)
     185        ;S GT1(170,"?+1,",.01)="ZZZ NEW MEDVEHICLETEXT"
     186        ;S GT1(170,"?+1,",12)="DIR"
     187        ;S GT1(171.201221,"?+1,1,5,1,",.01)="ZZZ NEW MEDVEHICLETEXT"
     188        ;S GT1(171.201221,"+1,1,5,1,",1)="THIRD NEW MED DIRECTION TEXT"
     189        D CLEAN^DILF
     190        D UPDATE^DIE("","C0CFDA","","ZERR")
     191        I $D(ZERR) D  ;
     192        . W "ERROR",!
     193        . ZWR ZERR
     194        . B
     195        K C0CFDA
     196        Q
     197        ;
     198VARPTR(ZVAR,ZTYP)       ;EXTRINSIC WHICH RETURNS THE POINTER TO ZVAR IN THE
     199        ; CCR DICTIONARY. IT IS LAYGO, AS IT WILL ADD THE VARIABLE TO
     200        ; THE CCR DICTIONARY IF IT IS NOT THERE. ZTYP IS REQUIRED FOR LAYGO
     201        ;
     202        N ZCCRD,ZVARN,C0CFDA2
     203        S ZCCRD=170 ; FILE NUMBER FOR CCR DICTIONARY
     204        S ZVARN=$O(^C0CDIC(170,"B",ZVAR,"")) ;FIND IEN OF VARIABLE
     205        I ZVARN="" D  ; VARIABLE NOT IN CCR DICTIONARY - ADD IT
     206        . I '$D(ZTYP) D  Q  ; WON'T ADD A VARIABLE WITHOUT A TYPE
     207        . . W "CANNOT ADD VARIABLE WITHOUT A TYPE: ",ZVAR,!
     208        . S C0CFDA2(ZCCRD,"?+1,",.01)=ZVAR ; NAME OF NEW VARIABLE
     209        . S C0CFDA2(ZCCRD,"?+1,",12)=ZTYP ; TYPE EXTERNAL OF NEW VARIABLE
     210        . D CLEAN^DILF ;MAKE SURE ERRORS ARE CLEAN
     211        . D UPDATE^DIE("E","C0CFDA2","","ZERR") ;ADD VAR TO CCR DICTIONARY
     212        . I $D(ZERR) D  ; LAYGO ERROR
     213        . . W "ERROR ADDING "_ZC0CI_" TO CCR DICTIONARY",!
     214        . E  D  ;
     215        . . D CLEAN^DILF ; CLEAN UP
     216        . . S ZVARN=$O(^C0CDIC(170,"B",ZVAR,"")) ;FIND IEN OF VARIABLE
     217        . . W "ADDED ",ZVAR," TO CCR DICTIONARY, IEN:",ZVARN,!
     218        Q ZVARN
     219        ;
     220BLDTYPS ; ROUTINE TO POPULATE THE CCR NODE TYPES FILE (^C0CDIC(170.101,)
     221        ; THE CCR DICTIONARY (^C0CDIC(170, ) HAS MOST OF WHAT'S NEEDED
     222        ;
     223        N C0CDIC,C0CNODE ;
     224        S C0CDIC=$$FILEREF^C0CRNF(170) ; CLOSED FILE REFERENCE TO THE CCR DICTIONARY
     225        S C0CNODE=$$FILEREF^C0CRNF(170.101) ; CLOSED REF TO CCR NODE TYPE FILE
     226        Q
     227        ;
     228FIXSEC  ;FIX THE SECTION FIELD OF THE CCR DICTIONARY.. IT HAS BEEN REDEFINED
     229        ; AS A POINTER TO CCR NODE TYPE INSTEAD OF BEING A SET
     230        ; THE SET VALUES ARE PRESERVED IN ^KBAI("SECTION") TO FACILITATE THIS
     231        ; CONVERSION
     232        ;N C0CC,C0CI,C0CJ,C0CN,C0CZX
     233        D FIELDS^C0CRNF("C0CC",170)
     234        S C0CI=""
     235        F  S C0CI=$O(^KBAI("SECTION",C0CI)) Q:C0CI=""  D  ; EACH SECTION
     236        . S C0CZX=""
     237        . F  S C0CZX=$O(^KBAI("SECTION",C0CI,C0CZX)) Q:C0CZX=""  D  ; EACH VARIABLE
     238        . . W "SECTION ",C0CI," VAR ",C0CZX
     239        . . S C0CV=$O(^C0CDIC(170.101,"B",C0CI,""))
     240        . . W " TYPE: ",C0CV,!
     241        . . D SETFDA("SECTION",C0CV)
     242        . . ;ZWR C0CFDA
     243        Q
     244        ;
     245SETFDA(C0CSN,C0CSV)     ; INTERNAL ROUTINE TO MAKE AN FDA ENTRY FOR FIELD C0CSN
     246        ; TO SET TO VALUE C0CSV.
     247        ; C0CFDA,C0CC,C0CZX ARE ASSUMED FROM THE CALLING ROUTINE
     248        ; C0CSN,C0CSV ARE PASSED BY VALUE
     249        ;
     250        N C0CSI,C0CSJ
     251        S C0CSI=$$ZFILE(C0CSN,"C0CC") ; FILE NUMBER
     252        S C0CSJ=$$ZFIELD(C0CSN,"C0CC") ; FIELD NUMBER
     253        S C0CFDA(C0CSI,C0CZX_",",C0CSJ)=C0CSV
     254        Q
     255ZFILE(ZFN,ZTAB) ; EXTRINSIC TO RETURN FILE NUMBER FOR FIELD NAME PASSED
     256        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 1 OF C0CA(ZFN)
     257        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     258        I '$D(ZTAB) S ZTAB="C0CA"
     259        N ZR
     260        I $D(@ZTAB@(ZFN)) S ZR=$P(@ZTAB@(ZFN),"^",1)
     261        E  S ZR=""
     262        Q ZR
     263ZFIELD(ZFN,ZTAB)        ;EXTRINSIC TO RETURN FIELD NUMBER FOR FIELD NAME PASSED
     264        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 2 OF C0CA(ZFN)
     265        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     266        I '$D(ZTAB) S ZTAB="C0CA"
     267        N ZR
     268        I $D(@ZTAB@(ZFN)) S ZR=$P(@ZTAB@(ZFN),"^",2)
     269        E  S ZR=""
     270        Q ZR
     271        ;
     272ZVALUE(ZFN,ZTAB)        ;EXTRINSIC TO RETURN VALUE FOR FIELD NAME PASSED
     273        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF C0CA(ZFN)
     274        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     275        I '$D(ZTAB) S ZTAB="C0CA"
     276        N ZR
     277        I $D(@ZTAB@(ZFN)) S ZR=$P(@ZTAB@(ZFN),"^",3)
     278        E  S ZR=""
     279        Q ZR
     280        ;
     281SHOWE4(DFN)     ;
     282        ;
     283        N ZG
     284        S ZG=""
     285        F  S ZG=$O(^C0CE4("P",DFN,ZG)) Q:ZG=""  D  ZWR ^C0CE4(ZG,*)
     286        Q
     287        ;
  • ccr/branches/ohum/p/C0CIM2.m

    r1332 r1333  
    11C0CIM2   ; CCDCCR/GPL/CJE - CCR/CCD PROCESSING FOR IMMUNIZATIONS ; 01/27/10
    2         ;;1.0;C0C;;Feb 16, 2010;Build 38
     2        ;;1.0;C0C;;Feb 16, 2010;Build 1
    33        ;Copyright 2010 George Lilly, University of Minnesota and others.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CIMMU.m

    r1332 r1333  
    11C0CIMMU ; CCDCCR/GPL - CCR/CCD PROCESSING FOR IMMUNIZATIONS ; 2/2/09
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CIN.m

    r1332 r1333  
    11C0CIN     ; CCDCCR/GPL - CCR IMPORT utilities; 9/20/08
    2         ;;1.0;C0C;;Sep 20, 2009;Build 38
     2        ;;1.0;C0C;;Sep 20, 2009;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CLA7DD.m

    r1332 r1333  
    1 C0CLA7DD ;WV/JMC - CCD/CCR Post Install DD X-Ref Setup Routine ; Aug 31, 2009
    2  ;;1.0;C0C;;May 19, 2009;
    3  ;
    4  ; Tasked by C0C post-install routine C0CENV to create C0C cross-references on V LAB file.
    5  ;
    6  Q
    7  ;
    8  ;
    9 EN ; Add new style cross-references to V LAB file if it exists.
    10  ; OLD entry point - see new KIDS check points in C0CENV.
    11  ;
    12  ;
    13  ; Quit if AUPNVLAB global does not exist.
    14  I $$VFILE^DILFD(9000010.09)'=1 Q
    15  ;
    16  N MSG
    17  ;
    18  S MSG="Starting installation of ALR1 cross-reference at "_$$HTE^XLFDT($H,"1Z")
    19  D BMES(MSG)
    20  D ALR1
    21  S MSG="Installation of ALR1 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
    22  D BMES(MSG)
    23  ;
    24  S MSG="Starting installation of ALR2 cross-reference at "_$$HTE^XLFDT($H,"1Z")
    25  D BMES(MSG)
    26  D ALR2
    27  S MSG="Installation of ALR2 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
    28  D BMES(MSG)
    29  ;
    30  S MSG="Starting installation of ALR3 cross-reference at "_$$HTE^XLFDT($H,"1Z")
    31  D BMES(MSG)
    32  D ALR3
    33  S MSG="Installation of ALR3 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
    34  D BMES(MSG)
    35  ;
    36  S MSG="Starting installation of ALR4 cross-reference at "_$$HTE^XLFDT($H,"1Z")
    37  D BMES(MSG)
    38  D ALR4
    39  S MSG="Installation of ALR4 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
    40  D BMES(MSG)
    41  ;
    42  S MSG="Starting installation of ALR5 cross-reference at "_$$HTE^XLFDT($H,"1Z")
    43  D BMES(MSG)
    44  D ALR5
    45  S MSG="Installation of ALR5 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
    46  D BMES(MSG)
    47  ;
    48  Q
    49  ;
    50  ;
    51 ALR1 ; Installation of ALR1 cross-reference
    52  ;
    53  N C0CFLAG,C0CXR,C0CRES,C0COUT
    54  ;
    55  S C0CFLAG=""
    56  ;
    57  S C0CXR("FILE")=9000010.09
    58  S C0CXR("NAME")="ALR1"
    59  S C0CXR("TYPE")="R"
    60  S C0CXR("USE")="S"
    61  S C0CXR("EXECUTION")="R"
    62  S C0CXR("ACTIVITY")="IR"
    63  S C0CXR("SHORT DESCR")="X-ref to link entry with parent in LAB DATA file (#63)"
    64  S C0CXR("VAL",1)=.02
    65  S C0CXR("VAL",1,"SUBSCRIPT")=1
    66  S C0CXR("VAL",1,"COLLATION")="F"
    67  S C0CXR("VAL",2)=.06
    68  S C0CXR("VAL",2,"SUBSCRIPT")=2
    69  S C0CXR("VAL",2,"LENGTH")=30
    70  S C0CXR("VAL",2,"COLLATION")="F"
    71  S C0CXR("VAL",3)=.01
    72  S C0CXR("VAL",3,"SUBSCRIPT")=3
    73  S C0CXR("VAL",3,"COLLATION")="F"
    74  S C0CXR("VAL",4)=1201
    75  S C0CXR("VAL",4,"SUBSCRIPT")=4
    76  S C0CXR("VAL",4,"COLLATION")="F"
    77  D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
    78  ;
    79  Q
    80  ;
    81  ;
    82 ALR2 ; Installation of ALR2 cross-reference
    83  ;
    84  N C0CFLAG,C0CXR,C0CRES,C0COUT
    85  ;
    86  S C0CFLAG=""
    87  ;
    88  S C0CXR("FILE")=9000010.09
    89  S C0CXR("NAME")="ALR2"
    90  S C0CXR("TYPE")="MU"
    91  S C0CXR("USE")="S"
    92  S C0CXR("EXECUTION")="R"
    93  S C0CXR("ACTIVITY")="IR"
    94  S C0CXR("SHORT DESCR")="X-ref for LOINC code related to test result."
    95  S C0CXR("DESCR",1)="This cross-reference is used to identify the LOINC codes"
    96  S C0CXR("DESCR",2)="that has been assigned to a lab result. Allows queries to"
    97  S C0CXR("DESCR",3)="retrieve the LOINC code associated with a specific test"
    98  S C0CXR("DESCR",4)="result."
    99  S C0CXR("SET")="S ^AUPNVLAB(""ALR2"",X(1),X(2),X(3),X(4),X(5),DA)="""""
    100  S C0CXR("KILL")="K ^AUPNVLAB(""ALR2"",X(1),X(2),X(3),X(4),X(5),DA)"
    101  S C0CXR("WHOLE KILL")="K ^AUPNVLAB(""ALR2"")"
    102  S C0CXR("VAL",1)=.02
    103  S C0CXR("VAL",1,"SUBSCRIPT")=1
    104  S C0CXR("VAL",1,"COLLATION")="F"
    105  S C0CXR("VAL",2)=1201
    106  S C0CXR("VAL",2,"SUBSCRIPT")=2
    107  S C0CXR("VAL",2,"COLLATION")="F"
    108  S C0CXR("VAL",3)=.06
    109  S C0CXR("VAL",3,"SUBSCRIPT")=3
    110  S C0CXR("VAL",3,"COLLATION")="F"
    111  S C0CXR("VAL",4)=.01
    112  S C0CXR("VAL",4,"SUBSCRIPT")=4
    113  S C0CXR("VAL",4,"COLLATION")="F"
    114  S C0CXR("VAL",5)=1113
    115  S C0CXR("VAL",5,"SUBSCRIPT")=5
    116  S C0CXR("VAL",5,"COLLATION")="F"
    117  D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
    118  ;
    119  Q
    120  ;
    121  ;
    122 ALR3 ; Installation of ALR3 cross-reference
    123  ;
    124  N C0CFLAG,C0CXR,C0CRES,C0COUT
    125  ;
    126  S C0CFLAG=""
    127  ;
    128  S C0CXR("FILE")=9000010.09
    129  S C0CXR("NAME")="ALR3"
    130  S C0CXR("TYPE")="R"
    131  S C0CXR("USE")="S"
    132  S C0CXR("EXECUTION")="F"
    133  S C0CXR("ACTIVITY")="IR"
    134  S C0CXR("SHORT DESCR")="X-ref for LOINC code related to test result - any patient"
    135  S C0CXR("DESCR",1)="This cross-reference is used to identify the LOINC codes that has been assigned to a lab result. Allows queries"
    136  S C0CXR("DESCR",2)="to retrieve the LOINC code associated with a specific test result. It allows any patient"
    137  S C0CXR("DESCR",3)="lab results to be identified by LOINC"
    138  S C0CXR("VAL",1)=1113
    139  S C0CXR("VAL",1,"SUBSCRIPT")=1
    140  S C0CXR("VAL",1,"COLLATION")="F"
    141  ;
    142  D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
    143  ;
    144  Q
    145  ;
    146  ;
    147 ALR4 ; Installation of ALR4 cross-reference
    148  ;
    149  N C0CFLAG,C0CXR,C0CRES,C0COUT
    150  ;
    151  S C0CFLAG=""
    152  ;
    153  S C0CXR("FILE")=9000010.09
    154  S C0CXR("NAME")="ALR4"
    155  S C0CXR("TYPE")="R"
    156  S C0CXR("USE")="S"
    157  S C0CXR("EXECUTION")="R"
    158  S C0CXR("ACTIVITY")="IR"
    159  S C0CXR("SHORT DESCR")="X-ref by patient and collection date/time"
    160  S C0CXR("DESCR",1)="This cross-reference is used to identify all lab results for a"
    161  S C0CXR("DESCR",2)="patient by collection date/time. This includes results that are only in"
    162  S C0CXR("DESCR",3)="this file and therefore do not have a corresponding entry in LAB DATA"
    163  S C0CXR("DESCR",4)="file (#63)."
    164  S C0CXR("VAL",1)=.02
    165  S C0CXR("VAL",1,"SUBSCRIPT")=1
    166  S C0CXR("VAL",1,"COLLATION")="F"
    167  S C0CXR("VAL",2)=1201
    168  S C0CXR("VAL",2,"SUBSCRIPT")=2
    169  S C0CXR("VAL",2,"COLLATION")="F"
    170  ;
    171  D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
    172  ;
    173  Q
    174  ;
    175  ;
    176 ALR5 ; Installation of ALR5 cross-reference
    177  ;
    178  N C0CFLAG,C0CXR,C0CRES,C0COUT
    179  ;
    180  S C0CFLAG=""
    181  ;
    182  S C0CXR("FILE")=9000010.09
    183  S C0CXR("NAME")="ALR5"
    184  S C0CXR("TYPE")="R"
    185  S C0CXR("USE")="S"
    186  S C0CXR("EXECUTION")="R"
    187  S C0CXR("ACTIVITY")="IR"
    188  S C0CXR("SHORT DESCR")="X-ref by patient and results availble date/time"
    189  S C0CXR("DESCR",1)="This cross-reference is used to identify all lab results for a"
    190  S C0CXR("DESCR",2)="patient by results available date/time. This includes results that are only in"
    191  S C0CXR("DESCR",3)="this file and therefore do not have a corresponding entry in LAB DATA"
    192  S C0CXR("DESCR",4)="file (#63)."
    193  S C0CXR("VAL",1)=.02
    194  S C0CXR("VAL",1,"SUBSCRIPT")=1
    195  S C0CXR("VAL",1,"COLLATION")="F"
    196  S C0CXR("VAL",2)=1212
    197  S C0CXR("VAL",2,"SUBSCRIPT")=2
    198  S C0CXR("VAL",2,"COLLATION")="F"
    199  ;
    200  D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
    201  ;
    202  Q
    203  ;
    204  ;
    205 REINDEX ; Set data into indexes for current entries.
    206  ;
    207  ;
    208  N C0CHLOG,DA,DIK,MSG
    209  ;
    210  S C0CHLOG("START")=$H
    211  S MSG="Starting indexing of ALR1, ALR2, ALR4, ALR5 indexes - "_$$HTE^XLFDT(C0CHLOG("START"),"1Z")
    212  D BMES(MSG),SENDXQA(MSG)
    213         ;
    214  S DIK="^AUPNVLAB("
    215  S DIK(1)=".02^ALR1^ALR2^ALR4^ALR5"
    216  D ENALL^DIK
    217  ;
    218  S C0CHLOG("END")=$H
    219  S MSG="Finished indexing of ALR1, ALR2, ALR4, ALR5 indexes - "_$$HTE^XLFDT(C0CHLOG("END"),"1Z")
    220  D BMES(MSG),SENDXQA(MSG)
    221  ;
    222  S MSG="Elapsed Time: "_$$HDIFF^XLFDT(C0CHLOG("END"),C0CHLOG("START"),3)
    223  D BMES(MSG)
    224         ;
    225  S C0CHLOG("START")=$H
    226  S MSG="Starting indexing of ALR3 index - "_$$HTE^XLFDT(C0CHLOG("START"),"1Z")
    227  D BMES(MSG),SENDXQA(MSG)
    228  ;
    229  K DA,DIK
    230  S DIK="^AUPNVLAB("
    231  S DIK(1)="1113^ALR3"
    232  D ENALL^DIK
    233  ;
    234  S C0CHLOG("END")=$H
    235  S MSG="Finished indexing of ALR3 index - "_$$HTE^XLFDT(C0CHLOG("END"),"1Z")
    236  D BMES(MSG),SENDXQA(MSG)
    237  ;
    238  S MSG="Elapsed Time: "_$$HDIFF^XLFDT(C0CHLOG("END"),C0CHLOG("START"),3)
    239  D BMES(MSG)
    240  ;
    241  Q
    242  ;
    243  ;
    244 BMES(STR) ; Write BMES^XPDUTL statements
    245  ;
    246  D BMES^XPDUTL($$CJ^XLFSTR(STR,IOM))
    247  ;
    248  Q
    249  ;
    250  ;
     1C0CLA7DD        ;WV/JMC - CCD/CCR Post Install DD X-Ref Setup Routine ; Aug 31, 2009
     2        ;;1.0;C0C;;May 19, 2009;Build 1
     3        ;
     4        ; Tasked by C0C post-install routine C0CENV to create C0C cross-references on V LAB file.
     5        ;
     6        Q
     7        ;
     8        ;
     9EN      ; Add new style cross-references to V LAB file if it exists.
     10        ; OLD entry point - see new KIDS check points in C0CENV.
     11        ;
     12        ;
     13        ; Quit if AUPNVLAB global does not exist.
     14        I $$VFILE^DILFD(9000010.09)'=1 Q
     15        ;
     16        N MSG
     17        ;
     18        S MSG="Starting installation of ALR1 cross-reference at "_$$HTE^XLFDT($H,"1Z")
     19        D BMES(MSG)
     20        D ALR1
     21        S MSG="Installation of ALR1 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
     22        D BMES(MSG)
     23        ;
     24        S MSG="Starting installation of ALR2 cross-reference at "_$$HTE^XLFDT($H,"1Z")
     25        D BMES(MSG)
     26        D ALR2
     27        S MSG="Installation of ALR2 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
     28        D BMES(MSG)
     29        ;
     30        S MSG="Starting installation of ALR3 cross-reference at "_$$HTE^XLFDT($H,"1Z")
     31        D BMES(MSG)
     32        D ALR3
     33        S MSG="Installation of ALR3 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
     34        D BMES(MSG)
     35        ;
     36        S MSG="Starting installation of ALR4 cross-reference at "_$$HTE^XLFDT($H,"1Z")
     37        D BMES(MSG)
     38        D ALR4
     39        S MSG="Installation of ALR4 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
     40        D BMES(MSG)
     41        ;
     42        S MSG="Starting installation of ALR5 cross-reference at "_$$HTE^XLFDT($H,"1Z")
     43        D BMES(MSG)
     44        D ALR5
     45        S MSG="Installation of ALR5 cross-reference completed at "_$$HTE^XLFDT($H,"1Z")
     46        D BMES(MSG)
     47        ;
     48        Q
     49        ;
     50        ;
     51ALR1    ; Installation of ALR1 cross-reference
     52        ;
     53        N C0CFLAG,C0CXR,C0CRES,C0COUT
     54        ;
     55        S C0CFLAG=""
     56        ;
     57        S C0CXR("FILE")=9000010.09
     58        S C0CXR("NAME")="ALR1"
     59        S C0CXR("TYPE")="R"
     60        S C0CXR("USE")="S"
     61        S C0CXR("EXECUTION")="R"
     62        S C0CXR("ACTIVITY")="IR"
     63        S C0CXR("SHORT DESCR")="X-ref to link entry with parent in LAB DATA file (#63)"
     64        S C0CXR("VAL",1)=.02
     65        S C0CXR("VAL",1,"SUBSCRIPT")=1
     66        S C0CXR("VAL",1,"COLLATION")="F"
     67        S C0CXR("VAL",2)=.06
     68        S C0CXR("VAL",2,"SUBSCRIPT")=2
     69        S C0CXR("VAL",2,"LENGTH")=30
     70        S C0CXR("VAL",2,"COLLATION")="F"
     71        S C0CXR("VAL",3)=.01
     72        S C0CXR("VAL",3,"SUBSCRIPT")=3
     73        S C0CXR("VAL",3,"COLLATION")="F"
     74        S C0CXR("VAL",4)=1201
     75        S C0CXR("VAL",4,"SUBSCRIPT")=4
     76        S C0CXR("VAL",4,"COLLATION")="F"
     77        D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
     78        ;
     79        Q
     80        ;
     81        ;
     82ALR2    ; Installation of ALR2 cross-reference
     83        ;
     84        N C0CFLAG,C0CXR,C0CRES,C0COUT
     85        ;
     86        S C0CFLAG=""
     87        ;
     88        S C0CXR("FILE")=9000010.09
     89        S C0CXR("NAME")="ALR2"
     90        S C0CXR("TYPE")="MU"
     91        S C0CXR("USE")="S"
     92        S C0CXR("EXECUTION")="R"
     93        S C0CXR("ACTIVITY")="IR"
     94        S C0CXR("SHORT DESCR")="X-ref for LOINC code related to test result."
     95        S C0CXR("DESCR",1)="This cross-reference is used to identify the LOINC codes"
     96        S C0CXR("DESCR",2)="that has been assigned to a lab result. Allows queries to"
     97        S C0CXR("DESCR",3)="retrieve the LOINC code associated with a specific test"
     98        S C0CXR("DESCR",4)="result."
     99        S C0CXR("SET")="S ^AUPNVLAB(""ALR2"",X(1),X(2),X(3),X(4),X(5),DA)="""""
     100        S C0CXR("KILL")="K ^AUPNVLAB(""ALR2"",X(1),X(2),X(3),X(4),X(5),DA)"
     101        S C0CXR("WHOLE KILL")="K ^AUPNVLAB(""ALR2"")"
     102        S C0CXR("VAL",1)=.02
     103        S C0CXR("VAL",1,"SUBSCRIPT")=1
     104        S C0CXR("VAL",1,"COLLATION")="F"
     105        S C0CXR("VAL",2)=1201
     106        S C0CXR("VAL",2,"SUBSCRIPT")=2
     107        S C0CXR("VAL",2,"COLLATION")="F"
     108        S C0CXR("VAL",3)=.06
     109        S C0CXR("VAL",3,"SUBSCRIPT")=3
     110        S C0CXR("VAL",3,"COLLATION")="F"
     111        S C0CXR("VAL",4)=.01
     112        S C0CXR("VAL",4,"SUBSCRIPT")=4
     113        S C0CXR("VAL",4,"COLLATION")="F"
     114        S C0CXR("VAL",5)=1113
     115        S C0CXR("VAL",5,"SUBSCRIPT")=5
     116        S C0CXR("VAL",5,"COLLATION")="F"
     117        D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
     118        ;
     119        Q
     120        ;
     121        ;
     122ALR3    ; Installation of ALR3 cross-reference
     123        ;
     124        N C0CFLAG,C0CXR,C0CRES,C0COUT
     125        ;
     126        S C0CFLAG=""
     127        ;
     128        S C0CXR("FILE")=9000010.09
     129        S C0CXR("NAME")="ALR3"
     130        S C0CXR("TYPE")="R"
     131        S C0CXR("USE")="S"
     132        S C0CXR("EXECUTION")="F"
     133        S C0CXR("ACTIVITY")="IR"
     134        S C0CXR("SHORT DESCR")="X-ref for LOINC code related to test result - any patient"
     135        S C0CXR("DESCR",1)="This cross-reference is used to identify the LOINC codes that has been assigned to a lab result. Allows queries"
     136        S C0CXR("DESCR",2)="to retrieve the LOINC code associated with a specific test result. It allows any patient"
     137        S C0CXR("DESCR",3)="lab results to be identified by LOINC"
     138        S C0CXR("VAL",1)=1113
     139        S C0CXR("VAL",1,"SUBSCRIPT")=1
     140        S C0CXR("VAL",1,"COLLATION")="F"
     141        ;
     142        D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
     143        ;
     144        Q
     145        ;
     146        ;
     147ALR4    ; Installation of ALR4 cross-reference
     148        ;
     149        N C0CFLAG,C0CXR,C0CRES,C0COUT
     150        ;
     151        S C0CFLAG=""
     152        ;
     153        S C0CXR("FILE")=9000010.09
     154        S C0CXR("NAME")="ALR4"
     155        S C0CXR("TYPE")="R"
     156        S C0CXR("USE")="S"
     157        S C0CXR("EXECUTION")="R"
     158        S C0CXR("ACTIVITY")="IR"
     159        S C0CXR("SHORT DESCR")="X-ref by patient and collection date/time"
     160        S C0CXR("DESCR",1)="This cross-reference is used to identify all lab results for a"
     161        S C0CXR("DESCR",2)="patient by collection date/time. This includes results that are only in"
     162        S C0CXR("DESCR",3)="this file and therefore do not have a corresponding entry in LAB DATA"
     163        S C0CXR("DESCR",4)="file (#63)."
     164        S C0CXR("VAL",1)=.02
     165        S C0CXR("VAL",1,"SUBSCRIPT")=1
     166        S C0CXR("VAL",1,"COLLATION")="F"
     167        S C0CXR("VAL",2)=1201
     168        S C0CXR("VAL",2,"SUBSCRIPT")=2
     169        S C0CXR("VAL",2,"COLLATION")="F"
     170        ;
     171        D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
     172        ;
     173        Q
     174        ;
     175        ;
     176ALR5    ; Installation of ALR5 cross-reference
     177        ;
     178        N C0CFLAG,C0CXR,C0CRES,C0COUT
     179        ;
     180        S C0CFLAG=""
     181        ;
     182        S C0CXR("FILE")=9000010.09
     183        S C0CXR("NAME")="ALR5"
     184        S C0CXR("TYPE")="R"
     185        S C0CXR("USE")="S"
     186        S C0CXR("EXECUTION")="R"
     187        S C0CXR("ACTIVITY")="IR"
     188        S C0CXR("SHORT DESCR")="X-ref by patient and results availble date/time"
     189        S C0CXR("DESCR",1)="This cross-reference is used to identify all lab results for a"
     190        S C0CXR("DESCR",2)="patient by results available date/time. This includes results that are only in"
     191        S C0CXR("DESCR",3)="this file and therefore do not have a corresponding entry in LAB DATA"
     192        S C0CXR("DESCR",4)="file (#63)."
     193        S C0CXR("VAL",1)=.02
     194        S C0CXR("VAL",1,"SUBSCRIPT")=1
     195        S C0CXR("VAL",1,"COLLATION")="F"
     196        S C0CXR("VAL",2)=1212
     197        S C0CXR("VAL",2,"SUBSCRIPT")=2
     198        S C0CXR("VAL",2,"COLLATION")="F"
     199        ;
     200        D CREIXN^DDMOD(.C0CXR,C0CFLAG,.C0CRES,"C0COUT")
     201        ;
     202        Q
     203        ;
     204        ;
     205REINDEX ; Set data into indexes for current entries.
     206        ;
     207        ;
     208        N C0CHLOG,DA,DIK,MSG
     209        ;
     210        S C0CHLOG("START")=$H
     211        S MSG="Starting indexing of ALR1, ALR2, ALR4, ALR5 indexes - "_$$HTE^XLFDT(C0CHLOG("START"),"1Z")
     212        D BMES(MSG),SENDXQA(MSG)
     213        ;
     214        S DIK="^AUPNVLAB("
     215        S DIK(1)=".02^ALR1^ALR2^ALR4^ALR5"
     216        D ENALL^DIK
     217        ;
     218        S C0CHLOG("END")=$H
     219        S MSG="Finished indexing of ALR1, ALR2, ALR4, ALR5 indexes - "_$$HTE^XLFDT(C0CHLOG("END"),"1Z")
     220        D BMES(MSG),SENDXQA(MSG)
     221        ;
     222        S MSG="Elapsed Time: "_$$HDIFF^XLFDT(C0CHLOG("END"),C0CHLOG("START"),3)
     223        D BMES(MSG)
     224        ;
     225        S C0CHLOG("START")=$H
     226        S MSG="Starting indexing of ALR3 index - "_$$HTE^XLFDT(C0CHLOG("START"),"1Z")
     227        D BMES(MSG),SENDXQA(MSG)
     228        ;
     229        K DA,DIK
     230        S DIK="^AUPNVLAB("
     231        S DIK(1)="1113^ALR3"
     232        D ENALL^DIK
     233        ;
     234        S C0CHLOG("END")=$H
     235        S MSG="Finished indexing of ALR3 index - "_$$HTE^XLFDT(C0CHLOG("END"),"1Z")
     236        D BMES(MSG),SENDXQA(MSG)
     237        ;
     238        S MSG="Elapsed Time: "_$$HDIFF^XLFDT(C0CHLOG("END"),C0CHLOG("START"),3)
     239        D BMES(MSG)
     240        ;
     241        Q
     242        ;
     243        ;
     244BMES(STR)       ; Write BMES^XPDUTL statements
     245        ;
     246        D BMES^XPDUTL($$CJ^XLFSTR(STR,IOM))
     247        ;
     248        Q
     249        ;
     250        ;
    251251SENDXQA(MSG)    ; Send alert for reindex status
    252252        ;
  • ccr/branches/ohum/p/C0CLA7Q.m

    r1332 r1333  
    11C0CLA7Q ;WV/JMC - CCD/CCR Lab HL7 Query Utility ;Jul 6, 2009
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;
    44        ;
  • ccr/branches/ohum/p/C0CLABS.m

    r1332 r1333  
    11C0CALABS        ; CCDCCR/GPL - CCR/CCD PROCESSING FOR LAB RESULTS ; 10/01/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CMAIL.m

    r1332 r1333  
    11C0CMAIL ; Communications for MIME Documents and MultiMIME ; 3110420 ; rcr/rcr
    2 V ;;0.1;C0C;nopatch;noreleasedate
    3  ;Copyright 2011 Chris Richardson, Richardson Computer Research
    4  ; Modified 3110516@1818
    5  ;   rcr@rcresearch.us
    6  ;  Licensed under the terms of the GNU
    7  ;General Public License See attached copy of the License.
    8  ;
    9  ;This program is free software; you can redistribute it and/or modify
    10  ;it under the terms of the GNU General Public License as published by
    11  ;the Free Software Foundation; either version 2 of the License, or
    12  ;(at your option) any later version.
    13  ;
    14  ;This program is distributed in the hope that it will be useful,
    15  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    16  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    17  ;GNU General Public License for more details.
    18  ;
    19  ;You should have received a copy of the GNU General Public License along
    20  ;with this program; if not, write to the Free Software Foundation, Inc.,
    21  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    22  ;
    23  ;  ------------------
    24  ;Entry Points
    25  ; GETMSG^C0CMAIL(.C0CDATA,.C0CINPUT)
    26  ;  Input:
    27  ;    C0CINPUT = "DUZ;MAILBOX_Name[or IEN for box (comma Separated);MALL
    28  ;                      or "*" for all boxes, default is "IN" if missing]"
    29  ;                $P(C0CINPUT,";",3)=MALL, default=NUL means "New only",
    30  ;                                     "*" for All or 9,999 maximum
    31  ;                    MALL?1.n = that number of the n most recent
    32  ;  Internally:
    33  ;    BNAM = Box Name
    34  ;  Output:
    35  ;    C0CDATA
    36  ;      = (BNAM,"NUMBER") = Number of NEW Emails in Basket
    37  ;        (BNAM,"MSG",C0CIEN,"FROM")=Name
    38  ;        (BNAM,"MSG",C0CIEN,"TO",n)=DUZ, or EMAIL Address
    39  ;        (BNAM,"MSG",C0CIEN,"TO NAME",n)=Names or EMAIL Address
    40  ;        (BNAM,"MSG",C0CIEN,"TITLE")=EMAIL Title
    41  ;        (BNAM,"MSG",C0CIEN[for File 3.9])=Number of Attachments
    42  ;        (BNAM,"MSG",C0CIEN,num,"CONT") = Free Text
    43  ;        (BNAM,"MSG",C0CIEN,num,"LINES") = Number of Lines of Text
    44  ;        (BNAM,"MSG",C0CIEN,num,"SIZE") = Size of the Message in Bytes
    45  ;        (BNAM,"MSG",C0CIEN,num,"TXT",LINE#) = Message Data (No Attachment)
    46  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM) = First Line^Last Line
    47  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,"CONT",type) = Message Details
    48  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,LINE#) = Message Data
    49  ;
    50  ; DO DETAIL^C0CMAIL(.OUTBF,D0) ; For each Email Message and Attachments
    51  ;   Input;
    52  ;     D0     - The IEN for the message in file 3.9, MESSAGE global
    53  ;   Output
    54  ;     OUTBF  - The array of your choice to save the expanded and decoded message.
    55  ;
    56 GETMSG(C0CDATA,C0CINPUT) ; Common Entry Point for Mailbox Data
    57  K:'$G(C0CDATA("KEEP")) C0CDATA
    58  N U
    59  S U="^"
    60  D:$G(C0CINPUT)
    61  . N BF,DUZ,I,INPUT,J,L,LST,MBLST,MALL
    62  . S INPUT=C0CINPUT
    63  . S DUZ=+INPUT
    64  . D:$D(^XMB(3.7,DUZ,0))#2
    65  . . S MBLST=$P(INPUT,";",2)
    66  . . S MALL=$P(INPUT,";",3) ; New or All Mail Flag
    67  . . S:MALL["*" MALL=99999
    68  . . ; Only one of these can be correct
    69  . . D
    70  . . . ;  If nul, make it "IN" only
    71  . . . I MBLST="" D  QUIT
    72  . . . . S MBLST("IN")=0,I=0
    73  . . . . D GATHER(DUZ,"IN",.LST)
    74  . . . .QUIT
    75  . . . ;
    76  . . . ;  If "*", Get all Mailboxes and look for New Messages
    77  . . . I MBLST["*" D  QUIT
    78  . . . . N NAM,NUM
    79  . . . . S NUM=0
    80  . . . . F  S NUM=$O(^XMB(3.7,DUZ,2,NUM)) Q:'NUM  D
    81  . . . . . S NAM=$P(^XMB(3.7,DUZ,2,NUM,0),U)
    82  . . . . . D GATHER(DUZ,NAM,.LST)
    83  . . . . .QUIT
    84  . . . .QUIT
    85  . . . ;
    86  . . . ;  If comma separated, look for mailboxes with new messages
    87  . . . I $L(MBLST,",")>1 D  QUIT
    88  . . . . S NAM=""
    89  . . . . N T,V
    90  . . . . F T=1:1:$L(MBLST,",")  S V=$P(MBLST,",",T)  I $L(V) D
    91  . . . . . I V S NAM=$P($G(^XMB(3.7,DUZ,2,V,0)),U)
    92  . . . . . S:NAM="" NAM=V
    93  . . . . . D GATHER(DUZ,NAM,.LST)
    94  . . . . .QUIT
    95  . . . .QUIT
    96  . . . ;
    97  . . . ;  If only 1 mailbox named, go get it
    98  . . . I $L(MBLST) D GATHER(DUZ,MBLST,.LST) QUIT
    99  . . .QUIT
    100  . . MERGE C0CDATA=LST
    101  . .QUIT
    102  .QUIT
    103  QUIT
    104  ;  ===================
    105 GATHER(DUZ,NAM,LST) ; Gather Data about the Baskets and their mail
    106  N I,J,K,L
    107  S (I,K)=0
    108  S J=$O(^XMB(3.7,DUZ,2,"B",NAM,""))
    109  F  S I=$O(^XMB(3.7,DUZ,2,J,1,I)) Q:'I  D
    110  . S L=$P(^XMB(3.7,DUZ,2,J,1,I,0),U,3)
    111  . D   ; :L
    112  . . S:L K=K+1,LST(NAM,"MSG",I,"NEW")=""  ; Flag NEW emails
    113  . . S LST(NAM,"MSG",I)=L
    114  . . D GETTYP(I)
    115  . .QUIT
    116  .QUIT
    117  S LST(NAM,"NUMBER")=K
    118  QUIT
    119  ;  ===================
    120  ; D0 is the IEN into the Message Global ^XMB(3.9,D0)
    121  ; The products of these emails are scanned to identify
    122  ;  the number of documents stored in the MIME package.
    123  ;  The protocol runs like this;
    124  ; Line 1 is the --separator
    125  ; Line 2 thru n >Look for Content-[detail type:]Description ; Next CMD
    126  ; Line n+2 thru t-1 where t does NOT have "Content-"
    127  ; Line t   is Next Section Terminator, or Message Terminator, --separator
    128  ; Line t+1 should not exist in the data set if Message Terminator
    129  ; CON = "Content-"
    130  ; FLG = "--"
    131  ; SEP = FLG+7 or more characters  ; Separator
    132  ; END = SEP+FLG
    133  ; SGC = Segment Count
    134  ; Note: separator is a string of specific characters of
    135  ;        indeterminate length 
    136  ; LST() the transfer array
    137  ; LST(NAM,"MSG",C0CIEN,"SEG",SGN)=Starting Line^Ending Line
    138  ; LST(NAM,"MSG",C0CIEN,"SEG",SGN,1:n)=Decoded Message Data
    139  ;
    140 GETTYP(D0) ; Look for the goodies in the Mail
    141  N I,J,N,BCN,CON,CNT,D1,END,FLG,SEP,SGC,XX,XXNM
    142  S CON="Content-"
    143  S FLG="--"
    144  S SEP=""  ; Start SEP as null, so we can use this to help identify the type
    145  S (BCN,CNT,D1,END,SGC)=0
    146  S XX=$G(^XMB(3.9,D0,0))
    147  S LST(NAM,"MSG",D0,"TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
    148  S LST(NAM,"MSG",D0,"CREATED")=$G(^XMB(3.9,D0,.6))
    149  F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
    150  S LST(NAM,"MSG",D0,"FROM")=$$NAME(XXNM)
    151  S LST(NAM,"MSG",D0,"SENT")=$$TIME($P(XX,U,3))
    152  ; Get the folks the email is sent to.
    153  S D1=0
    154  F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D
    155  . N T
    156  . S T=+$G(^XMB(3.9,D0,1,D1,0))
    157  . S:T T=$P($G(^VA(200,+T,0)),"^")
    158  . S LST("TO",D1)=T
    159  . S T=$G(^XMB(3.9,D0,6,D1,0))
    160  . S:T T=$P($G(^VA(200,+T,0)),"^")
    161  . S:T="" T="<Unknown>"
    162  . S LST("TO NAME",D1)=T
    163  .QUIT
    164  ; Preload first Segment (0) with beginning on Line 1
    165  ;  if not a 64bit
    166  S LST(NAM,"MSG",D0,"SEG",0)=1
    167  S D1=.9999,SEP="--"
    168  F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
    169  . ; Clear any control characters (cr/lf/ff) off
    170  . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
    171  . ; Enter once to set the SEP to capture the separator
    172  . I SEP=FLG&($E(X,1,2)=FLG)&($L(X,FLG)=2)&($L($P(X,FLG,2)>5))   D   Q
    173  . . S SEP=X,END=X_FLG
    174  . . S (CNT,SGC)=1,BCN=0
    175  . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
    176  . .QUIT
    177  . ;
    178  . ; A new separator is set, process original
    179  . I X=SEP  D  QUIT
    180  . . S LST(NAM,"MSG",D0,SGC,"SIZE")=BCN
    181  . . S LST(NAM,"MSG",D0,"SEG",SGC)=$G(LST(NAM,"MSG",D0,"SEG",SGC))_"^"_(D1-1)
    182  . . S SGC=SGC+1,BCN=0
    183  . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
    184  . .QUIT
    185  . ;
    186  . S BCN=BCN+$L(X)
    187  . I X[CON D  Q
    188  . . S J=$P($P(X,";"),CON,2)
    189  . . S LST(NAM,"MSG",D0,"SEG",SGC,"CONT",CNT,$P(J,":"))=$P(J,":",2)
    190  . .QUIT
    191  . ;
    192  . ; S LST(NAM,"MSG",D0,"SEG",D1)=X
    193  .QUIT
    194  QUIT
    195  ;  ===================
    196 NAME(NM) ; Return the name of the Sender
    197  N NAME
    198  S NAME="<Unknown Sender>"
    199  D
    200  . ; Look first for a value to use with the NEW PERSON file
    201  . ;
    202  . I NM=+NM S NAME=$P(^VA(200,NM,0),U,1) Q
    203  . ;
    204  . I $L(NM) S NAME=NM                    Q
    205  . ;
    206  . ; Else, pull the data from the message and display the foreign source
    207  . ;   of the message.
    208  . N T
    209  . S VAL=$G(^XMB(3.9,D0,.7))
    210  . S:VAL T=$P(^VA(200,VAL,0),U)
    211  . I $L($G(T)) S NAME=T                  Q
    212  . ;
    213  .QUIT
    214  QUIT NAME
    215  ;  ===================
    216 TIME(Y) ; The time and date of the sending
    217  X ^DD("DD")
    218  QUIT Y
    219  ;  ===================
    220  ;  Segments in Message need to be identified and decoded properly
    221  ; D DETAIL^C0CMAIL(.ARRAY,D0) ;  Call One for each message
    222  ;   ARRAY will have the details of this one call
    223  ;   
    224  ; Inputs;
    225  ;   C0CINPUT    - The IEN of the message to expand
    226  ; Outputs;
    227  ;   C0CDATA     - Carrier for the returned structure of the Message
    228  ;  C0CDATA(D0,"SEG")=number of SEGMENTS
    229  ;  C0CDATA(D0,"SEG",0:n)=SEGMENT n details
    230  ;  C0CDATA(D0,"SEG",0:n,"CONTENT",type)=Content details
    231  ;  C0CDATA(D0,"SEG",0:n,"MSG",D3)=Content details
    232  ;  C0CDATA(D0,"SEG",0:n,"HTML",D3)=Content details
    233  ;
    234 DETAIL(C0CDATA,C0CINPUT) ; Message Detail Delivery
    235  N LST,D0,D1,U
    236  S U="^"
    237  S D0=+$G(C0CINPUT)
    238  I D0   D    QUIT
    239  . D GETTYP2(D0)
    240  . I $D(LST)   M C0CDATA(D0)=LST
    241  .QUIT
    242  QUIT
    243  ;  ===================
    244  ;  End note if needed
    245  ; MSK   - Set of characters that do not exist in 64 bit encoding
    246 GETTYP2(D0) ; Try to get the types and MSK for the
    247  N I,J,K,N,BCN,BF,CON,CNT,D1,END,FLG,MSK,SEP,SGC,U,XX,ZN,XXNM
    248  S CON="Content-",U="^"
    249  S FLG="--"
    250  S MSK=" !""#$%&'()*,-.:;<>?@[\]^_`{|}~"
    251  S (BF,SEP)=""  ; Start SEP as null, so we can use this to help identify the type
    252  S (BCN,CNT,D1,END,SGC)=0
    253  S XX=$G(^XMB(3.9,D0,0))
    254  ; S K=$P(^XMB(3.9,D0,2,0),U,3)
    255  S LST("TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
    256  S LST("CREATED")=$$TIME($P(XX,U,3))
    257  F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
    258  S LST("FROM")=$$NAME(XXNM)
    259  ; Get the folks the email is sent to.
    260  S D1=0
    261  F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D   Q:D1=""
    262  . N I,T
    263  . S T=$P($G(^XMB(3.9,D0,1,D1,0)),U)
    264  . S:T T=$P($G(^VA(200,T,0)),"^")
    265  . S LST("TO",+D1)=T
    266  . S T=$G(^XMB(3.9,D0,6,+D1,0))
    267  . S:T="" T=$P($G(^VA(200,+T,0)),"^")
    268  . S:T="" T="<Unknown>"
    269  . S LST("TO NAME",D1)=T
    270  .QUIT
    271  ; Get the Header for the message
    272  S D1=0
    273  F I=1:1 S D1=$O(^XMB(3.9,D0,2,D1)) Q:D1=""  Q:(D1>.99999)   D
    274  . S LST("HDR",I)=$G(^XMB(3.9,D0,2,D1,0))
    275  .QUIT
    276  ; Start walking the different sections
    277  S D1=.99999,SEP="--"
    278  F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
    279  . ; Clear any control characters (cr/lf/ff) off
    280  . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
    281  . ; Enter once to set the SEP to capture the separator
    282  . I (SEP="--")&($E(X,1,2)=FLG)&($L(X,FLG)=2)  D   Q
    283  . . S SEP=X,END=X_FLG
    284  . . S (CNT,SGC)=1,BCN=0
    285  . . S LST("SEG",SGC)=D1
    286  . .QUIT
    287  . ;
    288  . ; A new SEGMENT separator is set, process original
    289  . I X=SEP  D  QUIT
    290  . . ; Save Current Values
    291  . . S LST("SEG",SGC,"SIZE")=BCN
    292  . . ;  Close this Segment and prepare to start a New Segment
    293  . . S LST("SEG",SGC)=$G(LST("SEG",SGC))_"^"_(D1-1)
    294  . . ;  Put the result in LST("SEG",SGC,"XML")
    295  . . I $L(BF) D
    296  . . . S ZN=1
    297  . . . N I,T,TBF
    298  . . . S TBF=BF
    299  . . . F I=1:1:($L(TBF,"="))  D
    300  . . . . S BF=$P(TBF,"=",I)_"="
    301  . . . . I BF'="="  D DECODER
    302  . . . .QUIT
    303  . . . S BF=""
    304  . . .QUIT
    305  . . S SGC=SGC+1,BCN=0
    306  . . ; Incriment SGC to start a new Segment
    307  . . S LST("SEG",SGC)=D1
    308  . .QUIT
    309  . ;
    310  . ; Accumulate the 64 bit encoding
    311  . I X=$TR(X,MSK)&$L(X) D   Q
    312  . . S BF=BF_X
    313  . . S BCN=BCN+$L(X)
    314  . .QUIT
    315  . ;
    316  . ; Ending Condition, close out the Segment
    317  . I X=END D  QUIT
    318  . . S LST("SEG",SGC)=$G(LST("SEG",SGC))_"^"_(D1-1)
    319  . . I $L(BF) S ZN=1 D DECODER  S BF="" Q
    320  . .QUIT
    321  . ;
    322  . S BCN=BCN+$L(X)
    323  . ; Split out the Content Info
    324  . I X[CON D  Q
    325  . . S J=$P(X,CON,2)
    326  . . S LST("SEG",SGC,"CONTENT",$P(J,":"))=$P(J,":",2,9)
    327  . .QUIT
    328  . ;
    329  . ; Everything else is Text
    330  . S LST("SEG",SGC,"TXT",D1)=X
    331  .QUIT
    332  QUIT
    333  ;  ===================
    334  ; Break down the Buffer Array so it can be saved.
    335  ;  BF is passed in.
    336 DECODER ;
    337  N RCNT,TBF,ZBF,ZI,ZJ,ZK,ZSIZE
    338  S ZBF=BF
    339  ;  Full Buffer, BF, now check for Encryption and Unpack
    340  F RCNT=1:1:$L(ZBF,"=")   D
    341  . N BF
    342  . S BF=$P(ZBF,"=",RCNT)
    343  . ;  Unpacking the 64 bit encoding
    344  . S TBF=$TR($$DECODE^RGUTUU(BF),$C(10,12,13))
    345  . D:$L(TBF)
    346  . . N XBF
    347  . . S BF=BF_"="
    348  . . D NORMAL(.XBF,.TBF)
    349  . . M LST("SEG",SGC,"XML",RCNT)=XBF
    350  . .QUIT
    351  .QUIT
    352  QUIT
    353  ;  ===================
    354  ;  OUTXML = OUTBF  = OUT   = OUTPUT ARRAY TO BE BUILT
    355  ;  BF     = INXML = INPUT ARRAY TO PROVIDE INPUT
    356  ;   >D NORMAL^C0CMAIL(.OUT,BF)
    357 NORMAL(OUTXML,INXML)    ;NORMALIZES AN XML STRING PASSED BY NAME IN INXML
    358  ; INTO AN XML ARRAY RETURNED IN OUTXML, ALSO PASSED BY NAME
    359  ;
    360  N ZN,OUTBF
    361  S ZN=1
    362  S OUTBF(ZN)=$P(INXML,"><",ZN)_">"
    363  F ZN=ZN+1:1 S OUTBF(ZN)="<"_$P(INXML,"><",ZN) Q:$P(INXML,"><",ZN+1)=""  D  ;
    364  . S OUTBF(ZN)=OUTBF(ZN)_">"
    365  .QUIT
    366  M OUTXML=OUTBF
    367  QUIT
    368  ;  ===================
    369  ;  vvvvvvvvvvvvvvv  Not Needed  vvvvvvvvvvvvvvvvvvvvvvvvvv
    370  ;  End note if needed
    371  QUIT
    372  ;  ===================
     2V       ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        ;Copyright 2011 Chris Richardson, Richardson Computer Research
     4        ; Modified 3110516@1818
     5        ;   rcr@rcresearch.us
     6        ;  Licensed under the terms of the GNU
     7        ;General Public License See attached copy of the License.
     8        ;
     9        ;This program is free software; you can redistribute it and/or modify
     10        ;it under the terms of the GNU General Public License as published by
     11        ;the Free Software Foundation; either version 2 of the License, or
     12        ;(at your option) any later version.
     13        ;
     14        ;This program is distributed in the hope that it will be useful,
     15        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     16        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     17        ;GNU General Public License for more details.
     18        ;
     19        ;You should have received a copy of the GNU General Public License along
     20        ;with this program; if not, write to the Free Software Foundation, Inc.,
     21        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     22        ;
     23        ;  ------------------
     24        ;Entry Points
     25        ; GETMSG^C0CMAIL(.C0CDATA,.C0CINPUT)
     26        ;  Input:
     27        ;    C0CINPUT = "DUZ;MAILBOX_Name[or IEN for box (comma Separated);MALL
     28        ;                      or "*" for all boxes, default is "IN" if missing]"
     29        ;                $P(C0CINPUT,";",3)=MALL, default=NUL means "New only",
     30        ;                                     "*" for All or 9,999 maximum
     31        ;                    MALL?1.n = that number of the n most recent
     32        ;  Internally:
     33        ;    BNAM = Box Name
     34        ;  Output:
     35        ;    C0CDATA
     36        ;      = (BNAM,"NUMBER") = Number of NEW Emails in Basket
     37        ;        (BNAM,"MSG",C0CIEN,"FROM")=Name
     38        ;        (BNAM,"MSG",C0CIEN,"TO",n)=DUZ, or EMAIL Address
     39        ;        (BNAM,"MSG",C0CIEN,"TO NAME",n)=Names or EMAIL Address
     40        ;        (BNAM,"MSG",C0CIEN,"TITLE")=EMAIL Title
     41        ;        (BNAM,"MSG",C0CIEN[for File 3.9])=Number of Attachments
     42        ;        (BNAM,"MSG",C0CIEN,num,"CONT") = Free Text
     43        ;        (BNAM,"MSG",C0CIEN,num,"LINES") = Number of Lines of Text
     44        ;        (BNAM,"MSG",C0CIEN,num,"SIZE") = Size of the Message in Bytes
     45        ;        (BNAM,"MSG",C0CIEN,num,"TXT",LINE#) = Message Data (No Attachment)
     46        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM) = First Line^Last Line
     47        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,"CONT",type) = Message Details
     48        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,LINE#) = Message Data
     49        ;
     50        ; DO DETAIL^C0CMAIL(.OUTBF,D0) ; For each Email Message and Attachments
     51        ;   Input;
     52        ;     D0     - The IEN for the message in file 3.9, MESSAGE global
     53        ;   Output
     54        ;     OUTBF  - The array of your choice to save the expanded and decoded message.
     55        ;
     56GETMSG(C0CDATA,C0CINPUT)        ; Common Entry Point for Mailbox Data
     57        K:'$G(C0CDATA("KEEP")) C0CDATA
     58        N U
     59        S U="^"
     60        D:$G(C0CINPUT)
     61        . N BF,DUZ,I,INPUT,J,L,LST,MBLST,MALL
     62        . S INPUT=C0CINPUT
     63        . S DUZ=+INPUT
     64        . D:$D(^XMB(3.7,DUZ,0))#2
     65        . . S MBLST=$P(INPUT,";",2)
     66        . . S MALL=$P(INPUT,";",3) ; New or All Mail Flag
     67        . . S:MALL["*" MALL=99999
     68        . . ; Only one of these can be correct
     69        . . D
     70        . . . ;  If nul, make it "IN" only
     71        . . . I MBLST="" D  QUIT
     72        . . . . S MBLST("IN")=0,I=0
     73        . . . . D GATHER(DUZ,"IN",.LST)
     74        . . . .QUIT
     75        . . . ;
     76        . . . ;  If "*", Get all Mailboxes and look for New Messages
     77        . . . I MBLST["*" D  QUIT
     78        . . . . N NAM,NUM
     79        . . . . S NUM=0
     80        . . . . F  S NUM=$O(^XMB(3.7,DUZ,2,NUM)) Q:'NUM  D
     81        . . . . . S NAM=$P(^XMB(3.7,DUZ,2,NUM,0),U)
     82        . . . . . D GATHER(DUZ,NAM,.LST)
     83        . . . . .QUIT
     84        . . . .QUIT
     85        . . . ;
     86        . . . ;  If comma separated, look for mailboxes with new messages
     87        . . . I $L(MBLST,",")>1 D  QUIT
     88        . . . . S NAM=""
     89        . . . . N T,V
     90        . . . . F T=1:1:$L(MBLST,",")  S V=$P(MBLST,",",T)  I $L(V) D
     91        . . . . . I V S NAM=$P($G(^XMB(3.7,DUZ,2,V,0)),U)
     92        . . . . . S:NAM="" NAM=V
     93        . . . . . D GATHER(DUZ,NAM,.LST)
     94        . . . . .QUIT
     95        . . . .QUIT
     96        . . . ;
     97        . . . ;  If only 1 mailbox named, go get it
     98        . . . I $L(MBLST) D GATHER(DUZ,MBLST,.LST) QUIT
     99        . . .QUIT
     100        . . MERGE C0CDATA=LST
     101        . .QUIT
     102        .QUIT
     103        QUIT
     104        ;  ===================
     105GATHER(DUZ,NAM,LST)     ; Gather Data about the Baskets and their mail
     106        N I,J,K,L
     107        S (I,K)=0
     108        S J=$O(^XMB(3.7,DUZ,2,"B",NAM,""))
     109        F  S I=$O(^XMB(3.7,DUZ,2,J,1,I)) Q:'I  D
     110        . S L=$P(^XMB(3.7,DUZ,2,J,1,I,0),U,3)
     111        . D   ; :L
     112        . . S:L K=K+1,LST(NAM,"MSG",I,"NEW")=""  ; Flag NEW emails
     113        . . S LST(NAM,"MSG",I)=L
     114        . . D GETTYP(I)
     115        . .QUIT
     116        .QUIT
     117        S LST(NAM,"NUMBER")=K
     118        QUIT
     119        ;  ===================
     120        ; D0 is the IEN into the Message Global ^XMB(3.9,D0)
     121        ; The products of these emails are scanned to identify
     122        ;  the number of documents stored in the MIME package.
     123        ;  The protocol runs like this;
     124        ; Line 1 is the --separator
     125        ; Line 2 thru n >Look for Content-[detail type:]Description ; Next CMD
     126        ; Line n+2 thru t-1 where t does NOT have "Content-"
     127        ; Line t   is Next Section Terminator, or Message Terminator, --separator
     128        ; Line t+1 should not exist in the data set if Message Terminator
     129        ; CON = "Content-"
     130        ; FLG = "--"
     131        ; SEP = FLG+7 or more characters  ; Separator
     132        ; END = SEP+FLG
     133        ; SGC = Segment Count
     134        ; Note: separator is a string of specific characters of
     135        ;        indeterminate length 
     136        ; LST() the transfer array
     137        ; LST(NAM,"MSG",C0CIEN,"SEG",SGN)=Starting Line^Ending Line
     138        ; LST(NAM,"MSG",C0CIEN,"SEG",SGN,1:n)=Decoded Message Data
     139        ;
     140GETTYP(D0)      ; Look for the goodies in the Mail
     141        N I,J,N,BCN,CON,CNT,D1,END,FLG,SEP,SGC,XX,XXNM
     142        S CON="Content-"
     143        S FLG="--"
     144        S SEP=""  ; Start SEP as null, so we can use this to help identify the type
     145        S (BCN,CNT,D1,END,SGC)=0
     146        S XX=$G(^XMB(3.9,D0,0))
     147        S LST(NAM,"MSG",D0,"TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
     148        S LST(NAM,"MSG",D0,"CREATED")=$G(^XMB(3.9,D0,.6))
     149        F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
     150        S LST(NAM,"MSG",D0,"FROM")=$$NAME(XXNM)
     151        S LST(NAM,"MSG",D0,"SENT")=$$TIME($P(XX,U,3))
     152        ; Get the folks the email is sent to.
     153        S D1=0
     154        F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D
     155        . N T
     156        . S T=+$G(^XMB(3.9,D0,1,D1,0))
     157        . S:T T=$P($G(^VA(200,+T,0)),"^")
     158        . S LST("TO",D1)=T
     159        . S T=$G(^XMB(3.9,D0,6,D1,0))
     160        . S:T T=$P($G(^VA(200,+T,0)),"^")
     161        . S:T="" T="<Unknown>"
     162        . S LST("TO NAME",D1)=T
     163        .QUIT
     164        ; Preload first Segment (0) with beginning on Line 1
     165        ;  if not a 64bit
     166        S LST(NAM,"MSG",D0,"SEG",0)=1
     167        S D1=.9999,SEP="--"
     168        F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
     169        . ; Clear any control characters (cr/lf/ff) off
     170        . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
     171        . ; Enter once to set the SEP to capture the separator
     172        . I SEP=FLG&($E(X,1,2)=FLG)&($L(X,FLG)=2)&($L($P(X,FLG,2)>5))   D   Q
     173        . . S SEP=X,END=X_FLG
     174        . . S (CNT,SGC)=1,BCN=0
     175        . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
     176        . .QUIT
     177        . ;
     178        . ; A new separator is set, process original
     179        . I X=SEP  D  QUIT
     180        . . S LST(NAM,"MSG",D0,SGC,"SIZE")=BCN
     181        . . S LST(NAM,"MSG",D0,"SEG",SGC)=$G(LST(NAM,"MSG",D0,"SEG",SGC))_"^"_(D1-1)
     182        . . S SGC=SGC+1,BCN=0
     183        . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
     184        . .QUIT
     185        . ;
     186        . S BCN=BCN+$L(X)
     187        . I X[CON D  Q
     188        . . S J=$P($P(X,";"),CON,2)
     189        . . S LST(NAM,"MSG",D0,"SEG",SGC,"CONT",CNT,$P(J,":"))=$P(J,":",2)
     190        . .QUIT
     191        . ;
     192        . ; S LST(NAM,"MSG",D0,"SEG",D1)=X
     193        .QUIT
     194        QUIT
     195        ;  ===================
     196NAME(NM)        ; Return the name of the Sender
     197        N NAME
     198        S NAME="<Unknown Sender>"
     199        D
     200        . ; Look first for a value to use with the NEW PERSON file
     201        . ;
     202        . I NM=+NM S NAME=$P(^VA(200,NM,0),U,1) Q
     203        . ;
     204        . I $L(NM) S NAME=NM                    Q
     205        . ;
     206        . ; Else, pull the data from the message and display the foreign source
     207        . ;   of the message.
     208        . N T
     209        . S VAL=$G(^XMB(3.9,D0,.7))
     210        . S:VAL T=$P(^VA(200,VAL,0),U)
     211        . I $L($G(T)) S NAME=T                  Q
     212        . ;
     213        .QUIT
     214        QUIT NAME
     215        ;  ===================
     216TIME(Y) ; The time and date of the sending
     217        X ^DD("DD")
     218        QUIT Y
     219        ;  ===================
     220        ;  Segments in Message need to be identified and decoded properly
     221        ; D DETAIL^C0CMAIL(.ARRAY,D0) ;  Call One for each message
     222        ;   ARRAY will have the details of this one call
     223        ;   
     224        ; Inputs;
     225        ;   C0CINPUT    - The IEN of the message to expand
     226        ; Outputs;
     227        ;   C0CDATA     - Carrier for the returned structure of the Message
     228        ;  C0CDATA(D0,"SEG")=number of SEGMENTS
     229        ;  C0CDATA(D0,"SEG",0:n)=SEGMENT n details
     230        ;  C0CDATA(D0,"SEG",0:n,"CONTENT",type)=Content details
     231        ;  C0CDATA(D0,"SEG",0:n,"MSG",D3)=Content details
     232        ;  C0CDATA(D0,"SEG",0:n,"HTML",D3)=Content details
     233        ;
     234DETAIL(C0CDATA,C0CINPUT)        ; Message Detail Delivery
     235        N LST,D0,D1,U
     236        S U="^"
     237        S D0=+$G(C0CINPUT)
     238        I D0   D    QUIT
     239        . D GETTYP2(D0)
     240        . I $D(LST)   M C0CDATA(D0)=LST
     241        .QUIT
     242        QUIT
     243        ;  ===================
     244        ;  End note if needed
     245        ; MSK   - Set of characters that do not exist in 64 bit encoding
     246GETTYP2(D0)     ; Try to get the types and MSK for the
     247        N I,J,K,N,BCN,BF,CON,CNT,D1,END,FLG,MSK,SEP,SGC,U,XX,ZN,XXNM
     248        S CON="Content-",U="^"
     249        S FLG="--"
     250        S MSK=" !""#$%&'()*,-.:;<>?@[\]^_`{|}~"
     251        S (BF,SEP)=""  ; Start SEP as null, so we can use this to help identify the type
     252        S (BCN,CNT,D1,END,SGC)=0
     253        S XX=$G(^XMB(3.9,D0,0))
     254        ; S K=$P(^XMB(3.9,D0,2,0),U,3)
     255        S LST("TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
     256        S LST("CREATED")=$$TIME($P(XX,U,3))
     257        F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
     258        S LST("FROM")=$$NAME(XXNM)
     259        ; Get the folks the email is sent to.
     260        S D1=0
     261        F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D   Q:D1=""
     262        . N I,T
     263        . S T=$P($G(^XMB(3.9,D0,1,D1,0)),U)
     264        . S:T T=$P($G(^VA(200,T,0)),"^")
     265        . S LST("TO",+D1)=T
     266        . S T=$G(^XMB(3.9,D0,6,+D1,0))
     267        . S:T="" T=$P($G(^VA(200,+T,0)),"^")
     268        . S:T="" T="<Unknown>"
     269        . S LST("TO NAME",D1)=T
     270        .QUIT
     271        ; Get the Header for the message
     272        S D1=0
     273        F I=1:1 S D1=$O(^XMB(3.9,D0,2,D1)) Q:D1=""  Q:(D1>.99999)   D
     274        . S LST("HDR",I)=$G(^XMB(3.9,D0,2,D1,0))
     275        .QUIT
     276        ; Start walking the different sections
     277        S D1=.99999,SEP="--"
     278        F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
     279        . ; Clear any control characters (cr/lf/ff) off
     280        . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
     281        . ; Enter once to set the SEP to capture the separator
     282        . I (SEP="--")&($E(X,1,2)=FLG)&($L(X,FLG)=2)  D   Q
     283        . . S SEP=X,END=X_FLG
     284        . . S (CNT,SGC)=1,BCN=0
     285        . . S LST("SEG",SGC)=D1
     286        . .QUIT
     287        . ;
     288        . ; A new SEGMENT separator is set, process original
     289        . I X=SEP  D  QUIT
     290        . . ; Save Current Values
     291        . . S LST("SEG",SGC,"SIZE")=BCN
     292        . . ;  Close this Segment and prepare to start a New Segment
     293        . . S LST("SEG",SGC)=$G(LST("SEG",SGC))_"^"_(D1-1)
     294        . . ;  Put the result in LST("SEG",SGC,"XML")
     295        . . I $L(BF) D
     296        . . . S ZN=1
     297        . . . N I,T,TBF
     298        . . . S TBF=BF
     299        . . . F I=1:1:($L(TBF,"="))  D
     300        . . . . S BF=$P(TBF,"=",I)_"="
     301        . . . . I BF'="="  D DECODER
     302        . . . .QUIT
     303        . . . S BF=""
     304        . . .QUIT
     305        . . S SGC=SGC+1,BCN=0
     306        . . ; Incriment SGC to start a new Segment
     307        . . S LST("SEG",SGC)=D1
     308        . .QUIT
     309        . ;
     310        . ; Accumulate the 64 bit encoding
     311        . I X=$TR(X,MSK)&$L(X) D   Q
     312        . . S BF=BF_X
     313        . . S BCN=BCN+$L(X)
     314        . .QUIT
     315        . ;
     316        . ; Ending Condition, close out the Segment
     317        . I X=END D  QUIT
     318        . . S LST("SEG",SGC)=$G(LST("SEG",SGC))_"^"_(D1-1)
     319        . . I $L(BF) S ZN=1 D DECODER  S BF="" Q
     320        . .QUIT
     321        . ;
     322        . S BCN=BCN+$L(X)
     323        . ; Split out the Content Info
     324        . I X[CON D  Q
     325        . . S J=$P(X,CON,2)
     326        . . S LST("SEG",SGC,"CONTENT",$P(J,":"))=$P(J,":",2,9)
     327        . .QUIT
     328        . ;
     329        . ; Everything else is Text
     330        . S LST("SEG",SGC,"TXT",D1)=X
     331        .QUIT
     332        QUIT
     333        ;  ===================
     334        ; Break down the Buffer Array so it can be saved.
     335        ;  BF is passed in.
     336DECODER ;
     337        N RCNT,TBF,ZBF,ZI,ZJ,ZK,ZSIZE
     338        S ZBF=BF
     339        ;  Full Buffer, BF, now check for Encryption and Unpack
     340        F RCNT=1:1:$L(ZBF,"=")   D
     341        . N BF
     342        . S BF=$P(ZBF,"=",RCNT)
     343        . ;  Unpacking the 64 bit encoding
     344        . S TBF=$TR($$DECODE^RGUTUU(BF),$C(10,12,13))
     345        . D:$L(TBF)
     346        . . N XBF
     347        . . S BF=BF_"="
     348        . . D NORMAL(.XBF,.TBF)
     349        . . M LST("SEG",SGC,"XML",RCNT)=XBF
     350        . .QUIT
     351        .QUIT
     352        QUIT
     353        ;  ===================
     354        ;  OUTXML = OUTBF  = OUT   = OUTPUT ARRAY TO BE BUILT
     355        ;  BF     = INXML = INPUT ARRAY TO PROVIDE INPUT
     356        ;   >D NORMAL^C0CMAIL(.OUT,BF)
     357NORMAL(OUTXML,INXML)       ;NORMALIZES AN XML STRING PASSED BY NAME IN INXML
     358        ; INTO AN XML ARRAY RETURNED IN OUTXML, ALSO PASSED BY NAME
     359        ;
     360        N ZN,OUTBF
     361        S ZN=1
     362        S OUTBF(ZN)=$P(INXML,"><",ZN)_">"
     363        F ZN=ZN+1:1 S OUTBF(ZN)="<"_$P(INXML,"><",ZN) Q:$P(INXML,"><",ZN+1)=""  D  ;
     364        . S OUTBF(ZN)=OUTBF(ZN)_">"
     365        .QUIT
     366        M OUTXML=OUTBF
     367        QUIT
     368        ;  ===================
     369        ;  vvvvvvvvvvvvvvv  Not Needed  vvvvvvvvvvvvvvvvvvvvvvvvvv
     370        ;  End note if needed
     371        QUIT
     372        ;  ===================
  • ccr/branches/ohum/p/C0CMAIL2.m

    r1332 r1333  
    11C0CMAIL ; Communications for MIME Documents and MultiMIME ; 3110420 ; rcr/rcr
    2 V ;;0.1;C0C;nopatch;noreleasedate
    3  ;Copyright 2011 Chris Richardson, Richardson Computer Research
    4  ; Modified 3110615@1040
    5  ;   rcr@rcresearch.us
    6  ;  Licensed under the terms of the GNU
    7  ;General Public License See attached copy of the License.
    8  ;
    9  ;This program is free software; you can redistribute it and/or modify
    10  ;it under the terms of the GNU General Public License as published by
    11  ;the Free Software Foundation; either version 2 of the License, or
    12  ;(at your option) any later version.
    13  ;
    14  ;This program is distributed in the hope that it will be useful,
    15  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    16  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    17  ;GNU General Public License for more details.
    18  ;
    19  ;You should have received a copy of the GNU General Public License along
    20  ;with this program; if not, write to the Free Software Foundation, Inc.,
    21  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    22  ;
    23  ;  ------------------
    24  ;Entry Points
    25  ; DETAIL^C0CMAIL(.C0CDATA,IEN) --> Get details of the Mail Message and Attachments
    26  ; GETMSG^C0CMAIL(.C0CDATA,.C0CINPUT)
    27  ;  Input:
    28  ;    C0CINPUT = "DUZ;MAILBOX_Name[or IEN for box (comma Separated);MALL
    29  ;                      or "*" for all boxes, default is "IN" if missing]"
    30  ;                $P(C0CINPUT,";",3)=MALL, default=NUL means "New only",
    31  ;                                     "*" for All or 9,999 maximum
    32  ;                    MALL?1.n = that number of the n most recent
    33  ;  Internally:
    34  ;    BNAM = Box Name
    35  ;  Output:
    36  ;    C0CDATA
    37  ;      = (BNAM,"NUMBER") = Number of NEW Emails in Basket
    38  ;        (BNAM,"MSG",C0CIEN,"FROM")=Name
    39  ;        (BNAM,"MSG",C0CIEN,"TO",n)=DUZ, or EMAIL Address
    40  ;        (BNAM,"MSG",C0CIEN,"TO NAME",n)=Names or EMAIL Address
    41  ;        (BNAM,"MSG",C0CIEN,"TITLE")=EMAIL Title
    42  ;        (BNAM,"MSG",C0CIEN[for File 3.9])=Number of Attachments
    43  ;        (BNAM,"MSG",C0CIEN,num,"CONT") = Free Text
    44  ;        (BNAM,"MSG",C0CIEN,num,"LINES") = Number of Lines of Text
    45  ;        (BNAM,"MSG",C0CIEN,num,"SIZE") = Size of the Message in Bytes
    46  ;        (BNAM,"MSG",C0CIEN,num,"TXT",LINE#) = Message Data (No Attachment)
    47  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM) = First Line^Last Line
    48  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,"CONT",type) = Message Details
    49  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,LINE#) = Message Data
    50  ;
    51  ; DO DETAIL^C0CMAIL(.OUTBF,D0) ; For each Email Message and Attachments
    52  ;   Input;
    53  ;     D0     - The IEN for the message in file 3.9, MESSAGE global
    54  ;   Output
    55  ;     OUTBF  - The array of your choice to save the expanded and decoded message.
    56  ;
    57 GETMSG(C0CDATA,C0CINPUT) ; Common Entry Point for Mailbox Data
    58  K:'$G(C0CDATA("KEEP")) C0CDATA
    59  N U
    60  S U="^"
    61  D:$G(C0CINPUT)
    62  . N BF,DUZ,I,INPUT,J,L,LST,MBLST,MALL
    63  . S INPUT=C0CINPUT
    64  . S DUZ=+INPUT
    65  . I $D(^VA(200,DUZ))=0!('$D(^VA(200,DUZ,0)))  D ERROR("ER06")  Q
    66  . ;
    67  . D:$D(^XMB(3.7,DUZ,0))#2
    68  . . S MBLST=$P(INPUT,";",2)
    69  . . S MALL=$P(INPUT,";",3) ; New or All Mail Flag
    70  . . S:MALL["*" MALL=99999
    71  . . ; Only one of these can be correct
    72  . . D
    73  . . . ;  If nul, make it "IN" only
    74  . . . I MBLST="" D  QUIT
    75  . . . . S MBLST("IN")=0,I=0
    76  . . . . D GATHER(DUZ,"IN",.LST)
    77  . . . .QUIT
    78  . . . ;
    79  . . . ;  If "*", Get all Mailboxes and look for New Messages
    80  . . . I MBLST["*" D  QUIT
    81  . . . . N NAM,NUM
    82  . . . . S NUM=0
    83  . . . . F  S NUM=$O(^XMB(3.7,DUZ,2,NUM)) Q:'NUM  D
    84  . . . . . S NAM=$P(^XMB(3.7,DUZ,2,NUM,0),U)
    85  . . . . . D GATHER(DUZ,NAM,.LST)
    86  . . . . .QUIT
    87  . . . .QUIT
    88  . . . ;
    89  . . . ;  If comma separated, look for mailboxes with new messages
    90  . . . I $L(MBLST,",")>1 D  QUIT
    91  . . . . S NAM=""
    92  . . . . N TN,V
    93  . . . . F TN=1:1:$L(MBLST,",")  S V=$P(MBLST,",",TN)  D
    94  . . . . . I $L(V) D   QUIT
    95  . . . . . . I V S NAM=$P($G(^XMB(3.7,DUZ,2,V,0)),U)
    96  . . . . . . S:NAM="" NAM=V
    97  . . . . . . D GATHER(DUZ,NAM,.LST)
    98  . . . . . .QUIT
    99  . . . . . ;
    100  . . . . . D ERROR("ER08")
    101  . . . . .QUIT
    102  . . . .QUIT
    103  . . . ;
    104  . . . ;  If only 1 mailbox named, go get it
    105  . . . I $L(MBLST)  D   QUIT
    106  . . . . I $D(^XMB(3.7,DUZ,2,"B",MBLST))    D GATHER(DUZ,MBLST,.LST) QUIT
    107  . . . . ;
    108  . . . . D ERROR("ER07")
    109  . . .QUIT
    110  . . MERGE C0CDATA=LST
    111  . .QUIT
    112  .QUIT
    113  QUIT
    114  ;  ===================
    115 GATHER(DUZ,NAM,LST) ; Gather Data about the Baskets and their mail
    116  N I,J,K,L
    117  S (I,K)=0
    118  S J=$O(^XMB(3.7,DUZ,2,"B",NAM,""))
    119  F  S I=$O(^XMB(3.7,DUZ,2,J,1,I)) Q:'I  D
    120  . S L=$P(^XMB(3.7,DUZ,2,J,1,I,0),U,3)
    121  . D   ; :L
    122  . . S:L K=K+1,LST(NAM,"MSG",I,"NEW")=""  ; Flag NEW emails
    123  . . S LST(NAM,"MSG",I)=L
    124  . . D GETTYP(I)
    125  . .QUIT
    126  .QUIT
    127  S LST(NAM,"NUMBER")=K
    128  QUIT
    129  ;  ===================
    130  ; D0 is the IEN into the Message Global ^XMB(3.9,D0)
    131  ; The products of these emails are scanned to identify
    132  ;  the number of documents stored in the MIME package.
    133  ;  The protocol runs like this;
    134  ; Line 1 is the --separator
    135  ; Line 2 thru n >Look for Content-[detail type:]Description ; Next CMD
    136  ; Line n+2 thru t-1 where t does NOT have "Content-"
    137  ; Line t   is Next Section Terminator, or Message Terminator, --separator
    138  ; Line t+1 should not exist in the data set if Message Terminator
    139  ; CON = "Content-"
    140  ; FLG = "--"
    141  ; SEP = FLG+7 or more characters  ; Separator
    142  ; END = SEP+FLG
    143  ; SGC = Segment Count
    144  ; Note: separator is a string of specific characters of
    145  ;        indeterminate length 
    146  ; LST() the transfer array
    147  ; LST(NAM,"MSG",C0CIEN,"SEG",SGN)=Starting Line^Ending Line
    148  ; LST(NAM,"MSG",C0CIEN,"SEG",SGN,1:n)=Decoded Message Data
    149  ;
    150 GETTYP(D0) ; Look for the goodies in the Mail
    151  N I,J,N,BCN,CON,CNT,D1,END,FLG,SEP,SGC,XX,XXNM
    152  S CON="Content-"
    153  S FLG="--"
    154  S SEP=""  ; Start SEP as null, so we can use this to help identify the type
    155  S (BCN,CNT,D1,END,SGC)=0
    156  S XX=$G(^XMB(3.9,D0,0))
    157  S LST(NAM,"MSG",D0,"TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
    158  S LST(NAM,"MSG",D0,"CREATED")=$G(^XMB(3.9,D0,.6))
    159  F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
    160  S LST(NAM,"MSG",D0,"FROM")=$$NAME(XXNM)
    161  S LST(NAM,"MSG",D0,"SENT")=$$TIME($P(XX,U,3))
    162  ; Get the folks the email is sent to.
    163  S D1=0
    164  F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D
    165  . N T
    166  . S T=+$G(^XMB(3.9,D0,1,D1,0))
    167  . S:T T=$P($G(^VA(200,+T,0)),"^")
    168  . S LST("TO",D1)=T
    169  . S T=$G(^XMB(3.9,D0,6,D1,0))
    170  . S:T T=$P($G(^VA(200,+T,0)),"^")
    171  . S:T="" T="<Unknown>"
    172  . S LST("TO NAME",D1)=T
    173  .QUIT
    174  ; Preload first Segment (0) with beginning on Line 1
    175  ;  if not a 64bit
    176  S LST(NAM,"MSG",D0,"SEG",0)=1
    177  S D1=.9999,SEP="@@"
    178  F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
    179  . ; Clear any control characters (cr/lf/ff) off
    180  . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
    181  . ; Enter once to set the SEP to capture the separator
    182  . I SEP=FLG&($E(X,1,2)=FLG)&($L(X,FLG)=2)&($L($P(X,FLG,2)>5))   D   Q
    183  . . S SEP=X,END=X_FLG
    184  . . S (CNT,SGC)=1,BCN=0
    185  . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
    186  . .QUIT
    187  . ;
    188  . ; A new separator is set, process original
    189  . I X=SEP  D  QUIT
    190  . . S LST(NAM,"MSG",D0,SGC,"SIZE")=BCN+$L(BF)
    191  . . S LST(NAM,"MSG",D0,"SEG",SGC)=$G(LST(NAM,"MSG",D0,"SEG",SGC))_"^"_(D1-1)
    192  . . S SGC=SGC+1,BCN=0
    193  . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
    194  . .QUIT
    195  . ;
    196  . S BCN=BCN+$L(X)
    197  . I X[CON D  Q
    198  . . S J=$P($P(X,";"),CON,2)
    199  . . S LST(NAM,"MSG",D0,"SEG",SGC,"CONT",CNT,$P(J,":"))=$P(J,":",2)
    200  . .QUIT
    201  . ;
    202  . ; S LST(NAM,"MSG",D0,"SEG",D1)=X
    203  .QUIT
    204  QUIT
    205  ;  ===================
    206 NAME(NM) ; Return the name of the Sender
    207  N NAME
    208  S NAME="<Unknown Sender>"
    209  D
    210  . ; Look first for a value to use with the NEW PERSON file
    211  . ;
    212  . I NM=+NM S NAME=$P(^VA(200,NM,0),U,1) Q
    213  . ;
    214  . I $L(NM) S NAME=NM                    Q
    215  . ;
    216  . ; Else, pull the data from the message and display the foreign source
    217  . ;   of the message.
    218  . N T
    219  . S VAL=$G(^XMB(3.9,D0,.7))
    220  . S:VAL T=$P(^VA(200,VAL,0),U)
    221  . I $L($G(T)) S NAME=T                  Q
    222  . ;
    223  .QUIT
    224  QUIT NAME
    225  ;  ===================
    226 TIME(Y) ; The time and date of the sending
    227  X ^DD("DD")
    228  QUIT Y
    229  ;  ===================
    230  ;  Segments in Message need to be identified and decoded properly
    231  ; D DETAIL^C0CMAIL(.ARRAY,D0) ;  Call One for each message
    232  ;   ARRAY will have the details of this one call
    233  ;   
    234  ; Inputs;
    235  ;   C0CINPUT    - The IEN of the message to expand
    236  ; Outputs;
    237  ;   C0CDATA     - Carrier for the returned structure of the Message
    238  ;  C0CDATA(D0,"SEG")=number of SEGMENTS
    239  ;  C0CDATA(D0,"SEG",0:n)=SEGMENT n details; First;Last;Type
    240  ;  C0CDATA(D0,"SEG",0:n,"CONTENT",type)=Content details
    241  ;  C0CDATA(D0,"SEG",0:n,"MSG",D3)=Content details
    242  ;  C0CDATA(D0,"SEG",0:n,"HTML",D3)=Content details
    243  ;
    244 DETAIL(C0CDATA,C0CINPUT) ; Message Detail Delivery
    245  N LST,D0,D1,U
    246  S U="^"
    247  S D0=+$G(C0CINPUT)
    248  I D0   D    QUIT
    249  . I $D(^XMB(3.9,D0))<10 D ERROR("ER01")  QUIT
    250  . ;
    251  . D GETTYP2(D0)
    252  . I $D(LST)   M C0CDATA(D0)=LST  Q
    253  . ;
    254  . D ERROR("ER02")
    255  .QUIT
    256  QUIT
    257  ;  ===================
    258  ;  End note if needed
    259  ; MSK   - Set of characters that do not exist in 64 bit encoding
    260 GETTYP2(D0) ; Try to get the types and MSK for the
    261  N I,J,K,N,BCN,BF,CON,CNT,D1,END,FLG,MSK,SEP,SGC,U,XX,ZN,XXNM
    262  S CON="Content-",U="^"
    263  S FLG="--"
    264  S MSK=" !""#$%&'()*,-.:;<>?@[\]^_`{|}~"
    265  S (BF,SEP)=""  ; Start SEP as null, so we can use this to help identify the type
    266  S (BCN,CNT,D1,END,SGC)=0
    267  S XX=$G(^XMB(3.9,D0,0))
    268  ; S K=$P(^XMB(3.9,D0,2,0),U,3)
    269  S LST("TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
    270  S LST("CREATED")=$$TIME($P(XX,U,3))
    271  F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
    272  S LST("FROM")=$$NAME(XXNM)
    273  ; Get the folks the email is sent to.
    274  S D1=0
    275  F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D   Q:D1=""
    276  . N I,T
    277  . S T=$P($G(^XMB(3.9,D0,1,D1,0)),U)
    278  . S:T T=$P($G(^VA(200,T,0)),"^")
    279  . S LST("TO",+D1)=T
    280  . S T=$G(^XMB(3.9,D0,6,+D1,0))
    281  . S:T="" T=$P($G(^VA(200,+T,0)),"^")
    282  . S:T="" T="<Unknown>"
    283  . S LST("TO NAME",D1)=T
    284  .QUIT
    285  ; Get the Header for the message
    286  S D1=0
    287  F I=1:1 S D1=$O(^XMB(3.9,D0,2,D1)) Q:D1=""  Q:(D1>.99999)   D
    288  . S LST("HDR",I)=$G(^XMB(3.9,D0,2,D1,0))
    289  .QUIT
    290  ; Start walking the different sections
    291  S D1=.99999,SEP="@@",SGC=0
    292  F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
    293  . ; Clear any control characters (cr/lf/ff) off
    294  . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
    295  . ; Enter once to set the SEP to capture the separator
    296  . I (SEP="@@")&(X?2."--"5.AN.E)  D   Q
    297  . . I $L(X,FLG)>2 D ERROR("ER10")
    298  . . S SEP=X,END=X_FLG
    299  . . S (CNT,SGC)=1,BCN=0
    300  . . S LST("SEG",SGC)=D1
    301  . .QUIT
    302  . ;
    303  . ; A new SEGMENT separator is set, process original
    304  . I X=SEP  D  QUIT
    305  . . ; Save Current Values
    306  . . S LST("SEG",SGC,"SIZE")=BCN+$L(BF)
    307  . . ;  Close this Segment and prepare to start a New Segment
    308  . . S $P(LST("SEG",SGC),"^",1,2)=$P($G(LST("SEG",SGC)),"^",1)_"^"_(D1-1)
    309  . . ;  Put the result in LST("SEG",SGC,"XML")
    310  . . I $L(BF) D
    311  . . . S ZN=1
    312  . . . N I,T,TBF
    313  . . . S TBF=BF
    314  . . . F I=1:1:($L(TBF,"="))  D
    315  . . . . S BF=$P(TBF,"=",I)_"="
    316  . . . . I BF'="="  D DECODER
    317  . . . .QUIT
    318  . . . S BF=""
    319  . . .QUIT
    320  . . S SGC=SGC+1,BCN=0
    321  . . ; Incriment SGC to start a new Segment
    322  . . S LST("SEG",SGC)=D1
    323  . .QUIT
    324  . ;
    325  . ; Accumulate the 64 bit encoding
    326  . I X=$TR(X,MSK)&$L(X)  S BF=BF_X  QUIT
    327  . ;
    328  . ; Ending Condition, close out the Segment
    329  . I X=END D  QUIT
    330  . . S LST("SEG",SGC)=$G(LST("SEG",SGC))_"^"_(D1-1)
    331  . . I $L(BF) S ZN=1 D DECODER  S BF="" Q
    332  . .QUIT
    333  . ;
    334  . ; Accumulate the lengths of other lines of the message
    335  . S BCN=BCN+$L(X)
    336  . ; Split out the Content Info
    337  . I X[CON D  Q
    338  . . S J=$P(X,CON,2)
    339  . . I J[" boundary=" D
    340  . . . S SEP=$P($P(J," boundary=",2),"""",2),END=SEP_FLG
    341  . . . Q:SEP?2"-"5.ANP
    342  . . . ;
    343  . . . D ERROR("ER11")
    344  . . . Q:SEP'[" "
    345  . . . ;
    346  . . . D ERROR("ER12")
    347  . . .QUIT
    348  . . S LST("SEG",SGC,"CONTENT",$P(J,":"))=$P(J,":",2,9)
    349  . .QUIT
    350  . ;
    351  . ; Everything else is Text, Check for CCR/CCD.
    352  . N KK,UBF
    353  . D
    354  . . S UBF=$$UPPER(X)
    355  . . I UBF["<CONTINUITYOFCARERECORD"   S $P(LST("SEG",SGC),U,3)="CCR" Q
    356  . . ;
    357  . . I UBF["<CLINICALDOCUMENT"         S $P(LST("SEG",SGC),U,3)="CCD" Q
    358  . .QUIT
    359  . ; Look for directives in the text before it gets published
    360  . ;  Look for "=3D" and replace it with a single "=".  I can do more parsing
    361  . ;  but there may be situations where the line has been wrapped.
    362  . D:X["=3D"
    363  . . F KK=1:1 S X=$P(X,"=3D",1)_"="_$P(X,"=3D",2,999) Q:X'["=3D"
    364  . .QUIT
    365  . S LST("SEG",SGC,"TXT",D1)=X
    366  .QUIT
    367  QUIT
    368  ;  ===================
    369  ; Break down the Buffer Array so it can be saved.
    370  ;  BF is passed in.
    371 DECODER ;
    372  N RCNT,TBF,UBF,ZBF,ZI,ZJ,ZK,ZSIZE
    373  S ZBF=BF
    374  ;  Full Buffer, BF, now check for Encryption and Unpack
    375  F RCNT=1:1:$L(ZBF,"=")   D
    376  . N BF
    377  . S BF=$P(ZBF,"=",RCNT)
    378  . ;  Unpacking the 64 bit encoding
    379  . S TBF=$TR($$DECODE^RGUTUU(BF),$C(10,12,13))
    380  . D:$L(TBF)
    381  . . N C,OK,OKCNT,KK,XBF,UBF
    382  . . D
    383  . . . S UBF=$$UPPER(TBF)
    384  . . . I UBF["<CONTINUITYOFCARERECORD XMLNS=" S $P(LST("SEG",SGC),U,3)="CCR" Q
    385  . . . ;
    386  . . . I UBF["<CLINICALDOCUMENT XMLNS="       S $P(LST("SEG",SGC),U,3)="CCD" Q
    387  . . .QUIT
    388  . . ; Check for Bad Signature Decoding, after 100 bad characters
    389  . . S OK=1,OKCNT=0
    390  . . F KK=1:1:$L(UBF) S C=$A(UBF,KK) S:C>126 OKCNT=OKCNT+1 I OKCNT>100 S OK=0 Q
    391  . . ;
    392  . . D
    393  . . . I 'OK S (BF,UBF,TBF,XBF)="<Crypto-Signature redacted>" Q
    394  . . . ;
    395  . . . S BF=BF_"="
    396  . . . D NORMAL(.XBF,.TBF)
    397  . . .QUIT
    398  . . M LST("SEG",SGC,"XML",RCNT)=XBF
    399  . .QUIT
    400  .QUIT
    401  QUIT
    402  ;  ===================
    403  ;  OUTXML = OUTBF  = OUT   = OUTPUT ARRAY TO BE BUILT
    404  ;  BF     = INXML = INPUT ARRAY TO PROVIDE INPUT
    405  ;   >D NORMAL^C0CMAIL(.OUT,BF)
    406 NORMAL(OUTXML,INXML)    ;NORMALIZES AN XML STRING PASSED BY NAME IN INXML
    407  ; INTO AN XML ARRAY RETURNED IN OUTXML, ALSO PASSED BY NAME
    408  ;
    409  N ZN,OUTBF,XX,ZSEP
    410  S INXML=$TR(INXML,$C(10,12,13))
    411  S ZN=1,ZSEP=">"
    412  S OUTBF(1)=$P(INXML,"><",1)_ZSEP,XX="<"_$P(INXML,"><",2)_ZSEP,ZN=2,ZL=1
    413  F ZN=ZN+1:1:$L(INXML,"><")  D   Q:XX=""
    414  . S XX=$P(INXML,"><",ZN)
    415  . S:$E($RE(XX))=">" ZSEP=""
    416  . Q:XX=""
    417  . ;
    418  . S XX="<"_XX_ZSEP
    419  . D
    420  . . I $L(XX)<4000 S OUTBF(ZL)=XX,XX=$P(INXML,"><",ZN),ZL=ZL+1   Q
    421  . . ;
    422  . . D ERROR("ER05")
    423  . . F ZL=ZL+1:1 D   Q:XX=""
    424  . . .  N XL
    425  . . .  S XL=$E(XX,1,4000)
    426  . . .  S $E(XX,1,4000)=""   ; S XX=$E(XX,4001,999999) ; Remove 4K characters
    427  . . .  S OUTBF(ZL)=XL
    428  . . .QUIT
    429  . .QUIT
    430  .QUIT
    431  M OUTXML=OUTBF
    432  QUIT
    433  ;  ===================
    434 UPPER(X) ; Convert any lowercase letters to Uppercase letters
    435  QUIT $TR(X,"abcdefghijklmnopqrstuvwxyz","ABCDEFGHIJKLMNOPQRSTUVWXYZ")
    436  ;  ===================
    437  ; EN is a counter that remains between error events
    438 ERROR(ER) ; Error Handler
    439  N TXXQ,XXXQ
    440  S XXXQ="Unknown Error Encountered = "_ER
    441  S TXXQ=$P($T(@(ER_"^"_$T(+0))),";;",2,99)
    442  I TXXQ'=""  D
    443  . I TXXQ["_" X "S TXXQ="_TXXQ
    444  . S XXXQ=TXXQ
    445  .QUIT
    446  S EN(ER)=$G(EN(ER))+1
    447  S LST("ERR",ER,EN(ER))=XXXQ
    448  QUIT
    449  ;  ===================
    450 ER01 ;;Message Missing
    451 ER02 ;;Message Text Missing
    452 ER03 ;;Message Not Identifiable
    453 ER04 ;;Segment is too large
    454 ER05 ;;Mailbox Missing
    455 ER06 ;;"User Missing = "_$G(DUZ)
    456 ER07 ;;"Bad DUZ = "_DUZ
    457 ER08 ;;"Bad Basket ID = "_MBLST_" >> "_$G(TN)
    458 ER10 ;;"Bad Separator found = "_X
    459 ER11 ;;"Non-Standard Separator Found:>"_$G(J)
    460 ER12 ;;"Spaces are not allowed in Separators:>"_$G(J)
    461  ;  vvvvvvvvvvvvvvv  Not Needed  vvvvvvvvvvvvvvvvvvvvvvvvvv
    462  ;  End note if needed
    463  QUIT
    464  ;  ===================
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        ;Copyright 2011 Chris Richardson, Richardson Computer Research
     4        ; Modified 3110615@1040
     5        ;   rcr@rcresearch.us
     6        ;  Licensed under the terms of the GNU
     7        ;General Public License See attached copy of the License.
     8        ;
     9        ;This program is free software; you can redistribute it and/or modify
     10        ;it under the terms of the GNU General Public License as published by
     11        ;the Free Software Foundation; either version 2 of the License, or
     12        ;(at your option) any later version.
     13        ;
     14        ;This program is distributed in the hope that it will be useful,
     15        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     16        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     17        ;GNU General Public License for more details.
     18        ;
     19        ;You should have received a copy of the GNU General Public License along
     20        ;with this program; if not, write to the Free Software Foundation, Inc.,
     21        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     22        ;
     23        ;  ------------------
     24        ;Entry Points
     25        ; DETAIL^C0CMAIL(.C0CDATA,IEN) --> Get details of the Mail Message and Attachments
     26        ; GETMSG^C0CMAIL(.C0CDATA,.C0CINPUT)
     27        ;  Input:
     28        ;    C0CINPUT = "DUZ;MAILBOX_Name[or IEN for box (comma Separated);MALL
     29        ;                      or "*" for all boxes, default is "IN" if missing]"
     30        ;                $P(C0CINPUT,";",3)=MALL, default=NUL means "New only",
     31        ;                                     "*" for All or 9,999 maximum
     32        ;                    MALL?1.n = that number of the n most recent
     33        ;  Internally:
     34        ;    BNAM = Box Name
     35        ;  Output:
     36        ;    C0CDATA
     37        ;      = (BNAM,"NUMBER") = Number of NEW Emails in Basket
     38        ;        (BNAM,"MSG",C0CIEN,"FROM")=Name
     39        ;        (BNAM,"MSG",C0CIEN,"TO",n)=DUZ, or EMAIL Address
     40        ;        (BNAM,"MSG",C0CIEN,"TO NAME",n)=Names or EMAIL Address
     41        ;        (BNAM,"MSG",C0CIEN,"TITLE")=EMAIL Title
     42        ;        (BNAM,"MSG",C0CIEN[for File 3.9])=Number of Attachments
     43        ;        (BNAM,"MSG",C0CIEN,num,"CONT") = Free Text
     44        ;        (BNAM,"MSG",C0CIEN,num,"LINES") = Number of Lines of Text
     45        ;        (BNAM,"MSG",C0CIEN,num,"SIZE") = Size of the Message in Bytes
     46        ;        (BNAM,"MSG",C0CIEN,num,"TXT",LINE#) = Message Data (No Attachment)
     47        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM) = First Line^Last Line
     48        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,"CONT",type) = Message Details
     49        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,LINE#) = Message Data
     50        ;
     51        ; DO DETAIL^C0CMAIL(.OUTBF,D0) ; For each Email Message and Attachments
     52        ;   Input;
     53        ;     D0     - The IEN for the message in file 3.9, MESSAGE global
     54        ;   Output
     55        ;     OUTBF  - The array of your choice to save the expanded and decoded message.
     56        ;
     57GETMSG(C0CDATA,C0CINPUT)        ; Common Entry Point for Mailbox Data
     58        K:'$G(C0CDATA("KEEP")) C0CDATA
     59        N U
     60        S U="^"
     61        D:$G(C0CINPUT)
     62        . N BF,DUZ,I,INPUT,J,L,LST,MBLST,MALL
     63        . S INPUT=C0CINPUT
     64        . S DUZ=+INPUT
     65        . I $D(^VA(200,DUZ))=0!('$D(^VA(200,DUZ,0)))  D ERROR("ER06")  Q
     66        . ;
     67        . D:$D(^XMB(3.7,DUZ,0))#2
     68        . . S MBLST=$P(INPUT,";",2)
     69        . . S MALL=$P(INPUT,";",3) ; New or All Mail Flag
     70        . . S:MALL["*" MALL=99999
     71        . . ; Only one of these can be correct
     72        . . D
     73        . . . ;  If nul, make it "IN" only
     74        . . . I MBLST="" D  QUIT
     75        . . . . S MBLST("IN")=0,I=0
     76        . . . . D GATHER(DUZ,"IN",.LST)
     77        . . . .QUIT
     78        . . . ;
     79        . . . ;  If "*", Get all Mailboxes and look for New Messages
     80        . . . I MBLST["*" D  QUIT
     81        . . . . N NAM,NUM
     82        . . . . S NUM=0
     83        . . . . F  S NUM=$O(^XMB(3.7,DUZ,2,NUM)) Q:'NUM  D
     84        . . . . . S NAM=$P(^XMB(3.7,DUZ,2,NUM,0),U)
     85        . . . . . D GATHER(DUZ,NAM,.LST)
     86        . . . . .QUIT
     87        . . . .QUIT
     88        . . . ;
     89        . . . ;  If comma separated, look for mailboxes with new messages
     90        . . . I $L(MBLST,",")>1 D  QUIT
     91        . . . . S NAM=""
     92        . . . . N TN,V
     93        . . . . F TN=1:1:$L(MBLST,",")  S V=$P(MBLST,",",TN)  D
     94        . . . . . I $L(V) D   QUIT
     95        . . . . . . I V S NAM=$P($G(^XMB(3.7,DUZ,2,V,0)),U)
     96        . . . . . . S:NAM="" NAM=V
     97        . . . . . . D GATHER(DUZ,NAM,.LST)
     98        . . . . . .QUIT
     99        . . . . . ;
     100        . . . . . D ERROR("ER08")
     101        . . . . .QUIT
     102        . . . .QUIT
     103        . . . ;
     104        . . . ;  If only 1 mailbox named, go get it
     105        . . . I $L(MBLST)  D   QUIT
     106        . . . . I $D(^XMB(3.7,DUZ,2,"B",MBLST))    D GATHER(DUZ,MBLST,.LST) QUIT
     107        . . . . ;
     108        . . . . D ERROR("ER07")
     109        . . .QUIT
     110        . . MERGE C0CDATA=LST
     111        . .QUIT
     112        .QUIT
     113        QUIT
     114        ;  ===================
     115GATHER(DUZ,NAM,LST)     ; Gather Data about the Baskets and their mail
     116        N I,J,K,L
     117        S (I,K)=0
     118        S J=$O(^XMB(3.7,DUZ,2,"B",NAM,""))
     119        F  S I=$O(^XMB(3.7,DUZ,2,J,1,I)) Q:'I  D
     120        . S L=$P(^XMB(3.7,DUZ,2,J,1,I,0),U,3)
     121        . D   ; :L
     122        . . S:L K=K+1,LST(NAM,"MSG",I,"NEW")=""  ; Flag NEW emails
     123        . . S LST(NAM,"MSG",I)=L
     124        . . D GETTYP(I)
     125        . .QUIT
     126        .QUIT
     127        S LST(NAM,"NUMBER")=K
     128        QUIT
     129        ;  ===================
     130        ; D0 is the IEN into the Message Global ^XMB(3.9,D0)
     131        ; The products of these emails are scanned to identify
     132        ;  the number of documents stored in the MIME package.
     133        ;  The protocol runs like this;
     134        ; Line 1 is the --separator
     135        ; Line 2 thru n >Look for Content-[detail type:]Description ; Next CMD
     136        ; Line n+2 thru t-1 where t does NOT have "Content-"
     137        ; Line t   is Next Section Terminator, or Message Terminator, --separator
     138        ; Line t+1 should not exist in the data set if Message Terminator
     139        ; CON = "Content-"
     140        ; FLG = "--"
     141        ; SEP = FLG+7 or more characters  ; Separator
     142        ; END = SEP+FLG
     143        ; SGC = Segment Count
     144        ; Note: separator is a string of specific characters of
     145        ;        indeterminate length 
     146        ; LST() the transfer array
     147        ; LST(NAM,"MSG",C0CIEN,"SEG",SGN)=Starting Line^Ending Line
     148        ; LST(NAM,"MSG",C0CIEN,"SEG",SGN,1:n)=Decoded Message Data
     149        ;
     150GETTYP(D0)      ; Look for the goodies in the Mail
     151        N I,J,N,BCN,CON,CNT,D1,END,FLG,SEP,SGC,XX,XXNM
     152        S CON="Content-"
     153        S FLG="--"
     154        S SEP=""  ; Start SEP as null, so we can use this to help identify the type
     155        S (BCN,CNT,D1,END,SGC)=0
     156        S XX=$G(^XMB(3.9,D0,0))
     157        S LST(NAM,"MSG",D0,"TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
     158        S LST(NAM,"MSG",D0,"CREATED")=$G(^XMB(3.9,D0,.6))
     159        F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
     160        S LST(NAM,"MSG",D0,"FROM")=$$NAME(XXNM)
     161        S LST(NAM,"MSG",D0,"SENT")=$$TIME($P(XX,U,3))
     162        ; Get the folks the email is sent to.
     163        S D1=0
     164        F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D
     165        . N T
     166        . S T=+$G(^XMB(3.9,D0,1,D1,0))
     167        . S:T T=$P($G(^VA(200,+T,0)),"^")
     168        . S LST("TO",D1)=T
     169        . S T=$G(^XMB(3.9,D0,6,D1,0))
     170        . S:T T=$P($G(^VA(200,+T,0)),"^")
     171        . S:T="" T="<Unknown>"
     172        . S LST("TO NAME",D1)=T
     173        .QUIT
     174        ; Preload first Segment (0) with beginning on Line 1
     175        ;  if not a 64bit
     176        S LST(NAM,"MSG",D0,"SEG",0)=1
     177        S D1=.9999,SEP="@@"
     178        F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
     179        . ; Clear any control characters (cr/lf/ff) off
     180        . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
     181        . ; Enter once to set the SEP to capture the separator
     182        . I SEP=FLG&($E(X,1,2)=FLG)&($L(X,FLG)=2)&($L($P(X,FLG,2)>5))   D   Q
     183        . . S SEP=X,END=X_FLG
     184        . . S (CNT,SGC)=1,BCN=0
     185        . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
     186        . .QUIT
     187        . ;
     188        . ; A new separator is set, process original
     189        . I X=SEP  D  QUIT
     190        . . S LST(NAM,"MSG",D0,SGC,"SIZE")=BCN+$L(BF)
     191        . . S LST(NAM,"MSG",D0,"SEG",SGC)=$G(LST(NAM,"MSG",D0,"SEG",SGC))_"^"_(D1-1)
     192        . . S SGC=SGC+1,BCN=0
     193        . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
     194        . .QUIT
     195        . ;
     196        . S BCN=BCN+$L(X)
     197        . I X[CON D  Q
     198        . . S J=$P($P(X,";"),CON,2)
     199        . . S LST(NAM,"MSG",D0,"SEG",SGC,"CONT",CNT,$P(J,":"))=$P(J,":",2)
     200        . .QUIT
     201        . ;
     202        . ; S LST(NAM,"MSG",D0,"SEG",D1)=X
     203        .QUIT
     204        QUIT
     205        ;  ===================
     206NAME(NM)        ; Return the name of the Sender
     207        N NAME
     208        S NAME="<Unknown Sender>"
     209        D
     210        . ; Look first for a value to use with the NEW PERSON file
     211        . ;
     212        . I NM=+NM S NAME=$P(^VA(200,NM,0),U,1) Q
     213        . ;
     214        . I $L(NM) S NAME=NM                    Q
     215        . ;
     216        . ; Else, pull the data from the message and display the foreign source
     217        . ;   of the message.
     218        . N T
     219        . S VAL=$G(^XMB(3.9,D0,.7))
     220        . S:VAL T=$P(^VA(200,VAL,0),U)
     221        . I $L($G(T)) S NAME=T                  Q
     222        . ;
     223        .QUIT
     224        QUIT NAME
     225        ;  ===================
     226TIME(Y) ; The time and date of the sending
     227        X ^DD("DD")
     228        QUIT Y
     229        ;  ===================
     230        ;  Segments in Message need to be identified and decoded properly
     231        ; D DETAIL^C0CMAIL(.ARRAY,D0) ;  Call One for each message
     232        ;   ARRAY will have the details of this one call
     233        ;   
     234        ; Inputs;
     235        ;   C0CINPUT    - The IEN of the message to expand
     236        ; Outputs;
     237        ;   C0CDATA     - Carrier for the returned structure of the Message
     238        ;  C0CDATA(D0,"SEG")=number of SEGMENTS
     239        ;  C0CDATA(D0,"SEG",0:n)=SEGMENT n details; First;Last;Type
     240        ;  C0CDATA(D0,"SEG",0:n,"CONTENT",type)=Content details
     241        ;  C0CDATA(D0,"SEG",0:n,"MSG",D3)=Content details
     242        ;  C0CDATA(D0,"SEG",0:n,"HTML",D3)=Content details
     243        ;
     244DETAIL(C0CDATA,C0CINPUT)        ; Message Detail Delivery
     245        N LST,D0,D1,U
     246        S U="^"
     247        S D0=+$G(C0CINPUT)
     248        I D0   D    QUIT
     249        . I $D(^XMB(3.9,D0))<10 D ERROR("ER01")  QUIT
     250        . ;
     251        . D GETTYP2(D0)
     252        . I $D(LST)   M C0CDATA(D0)=LST  Q
     253        . ;
     254        . D ERROR("ER02")
     255        .QUIT
     256        QUIT
     257        ;  ===================
     258        ;  End note if needed
     259        ; MSK   - Set of characters that do not exist in 64 bit encoding
     260GETTYP2(D0)     ; Try to get the types and MSK for the
     261        N I,J,K,N,BCN,BF,CON,CNT,D1,END,FLG,MSK,SEP,SGC,U,XX,ZN,XXNM
     262        S CON="Content-",U="^"
     263        S FLG="--"
     264        S MSK=" !""#$%&'()*,-.:;<>?@[\]^_`{|}~"
     265        S (BF,SEP)=""  ; Start SEP as null, so we can use this to help identify the type
     266        S (BCN,CNT,D1,END,SGC)=0
     267        S XX=$G(^XMB(3.9,D0,0))
     268        ; S K=$P(^XMB(3.9,D0,2,0),U,3)
     269        S LST("TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
     270        S LST("CREATED")=$$TIME($P(XX,U,3))
     271        F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
     272        S LST("FROM")=$$NAME(XXNM)
     273        ; Get the folks the email is sent to.
     274        S D1=0
     275        F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D   Q:D1=""
     276        . N I,T
     277        . S T=$P($G(^XMB(3.9,D0,1,D1,0)),U)
     278        . S:T T=$P($G(^VA(200,T,0)),"^")
     279        . S LST("TO",+D1)=T
     280        . S T=$G(^XMB(3.9,D0,6,+D1,0))
     281        . S:T="" T=$P($G(^VA(200,+T,0)),"^")
     282        . S:T="" T="<Unknown>"
     283        . S LST("TO NAME",D1)=T
     284        .QUIT
     285        ; Get the Header for the message
     286        S D1=0
     287        F I=1:1 S D1=$O(^XMB(3.9,D0,2,D1)) Q:D1=""  Q:(D1>.99999)   D
     288        . S LST("HDR",I)=$G(^XMB(3.9,D0,2,D1,0))
     289        .QUIT
     290        ; Start walking the different sections
     291        S D1=.99999,SEP="@@",SGC=0
     292        F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
     293        . ; Clear any control characters (cr/lf/ff) off
     294        . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
     295        . ; Enter once to set the SEP to capture the separator
     296        . I (SEP="@@")&(X?2."--"5.AN.E)  D   Q
     297        . . I $L(X,FLG)>2 D ERROR("ER10")
     298        . . S SEP=X,END=X_FLG
     299        . . S (CNT,SGC)=1,BCN=0
     300        . . S LST("SEG",SGC)=D1
     301        . .QUIT
     302        . ;
     303        . ; A new SEGMENT separator is set, process original
     304        . I X=SEP  D  QUIT
     305        . . ; Save Current Values
     306        . . S LST("SEG",SGC,"SIZE")=BCN+$L(BF)
     307        . . ;  Close this Segment and prepare to start a New Segment
     308        . . S $P(LST("SEG",SGC),"^",1,2)=$P($G(LST("SEG",SGC)),"^",1)_"^"_(D1-1)
     309        . . ;  Put the result in LST("SEG",SGC,"XML")
     310        . . I $L(BF) D
     311        . . . S ZN=1
     312        . . . N I,T,TBF
     313        . . . S TBF=BF
     314        . . . F I=1:1:($L(TBF,"="))  D
     315        . . . . S BF=$P(TBF,"=",I)_"="
     316        . . . . I BF'="="  D DECODER
     317        . . . .QUIT
     318        . . . S BF=""
     319        . . .QUIT
     320        . . S SGC=SGC+1,BCN=0
     321        . . ; Incriment SGC to start a new Segment
     322        . . S LST("SEG",SGC)=D1
     323        . .QUIT
     324        . ;
     325        . ; Accumulate the 64 bit encoding
     326        . I X=$TR(X,MSK)&$L(X)  S BF=BF_X  QUIT
     327        . ;
     328        . ; Ending Condition, close out the Segment
     329        . I X=END D  QUIT
     330        . . S LST("SEG",SGC)=$G(LST("SEG",SGC))_"^"_(D1-1)
     331        . . I $L(BF) S ZN=1 D DECODER  S BF="" Q
     332        . .QUIT
     333        . ;
     334        . ; Accumulate the lengths of other lines of the message
     335        . S BCN=BCN+$L(X)
     336        . ; Split out the Content Info
     337        . I X[CON D  Q
     338        . . S J=$P(X,CON,2)
     339        . . I J[" boundary=" D
     340        . . . S SEP=$P($P(J," boundary=",2),"""",2),END=SEP_FLG
     341        . . . Q:SEP?2"-"5.ANP
     342        . . . ;
     343        . . . D ERROR("ER11")
     344        . . . Q:SEP'[" "
     345        . . . ;
     346        . . . D ERROR("ER12")
     347        . . .QUIT
     348        . . S LST("SEG",SGC,"CONTENT",$P(J,":"))=$P(J,":",2,9)
     349        . .QUIT
     350        . ;
     351        . ; Everything else is Text, Check for CCR/CCD.
     352        . N KK,UBF
     353        . D
     354        . . S UBF=$$UPPER(X)
     355        . . I UBF["<CONTINUITYOFCARERECORD"   S $P(LST("SEG",SGC),U,3)="CCR" Q
     356        . . ;
     357        . . I UBF["<CLINICALDOCUMENT"         S $P(LST("SEG",SGC),U,3)="CCD" Q
     358        . .QUIT
     359        . ; Look for directives in the text before it gets published
     360        . ;  Look for "=3D" and replace it with a single "=".  I can do more parsing
     361        . ;  but there may be situations where the line has been wrapped.
     362        . D:X["=3D"
     363        . . F KK=1:1 S X=$P(X,"=3D",1)_"="_$P(X,"=3D",2,999) Q:X'["=3D"
     364        . .QUIT
     365        . S LST("SEG",SGC,"TXT",D1)=X
     366        .QUIT
     367        QUIT
     368        ;  ===================
     369        ; Break down the Buffer Array so it can be saved.
     370        ;  BF is passed in.
     371DECODER ;
     372        N RCNT,TBF,UBF,ZBF,ZI,ZJ,ZK,ZSIZE
     373        S ZBF=BF
     374        ;  Full Buffer, BF, now check for Encryption and Unpack
     375        F RCNT=1:1:$L(ZBF,"=")   D
     376        . N BF
     377        . S BF=$P(ZBF,"=",RCNT)
     378        . ;  Unpacking the 64 bit encoding
     379        . S TBF=$TR($$DECODE^RGUTUU(BF),$C(10,12,13))
     380        . D:$L(TBF)
     381        . . N C,OK,OKCNT,KK,XBF,UBF
     382        . . D
     383        . . . S UBF=$$UPPER(TBF)
     384        . . . I UBF["<CONTINUITYOFCARERECORD XMLNS=" S $P(LST("SEG",SGC),U,3)="CCR" Q
     385        . . . ;
     386        . . . I UBF["<CLINICALDOCUMENT XMLNS="       S $P(LST("SEG",SGC),U,3)="CCD" Q
     387        . . .QUIT
     388        . . ; Check for Bad Signature Decoding, after 100 bad characters
     389        . . S OK=1,OKCNT=0
     390        . . F KK=1:1:$L(UBF) S C=$A(UBF,KK) S:C>126 OKCNT=OKCNT+1 I OKCNT>100 S OK=0 Q
     391        . . ;
     392        . . D
     393        . . . I 'OK S (BF,UBF,TBF,XBF)="<Crypto-Signature redacted>" Q
     394        . . . ;
     395        . . . S BF=BF_"="
     396        . . . D NORMAL(.XBF,.TBF)
     397        . . .QUIT
     398        . . M LST("SEG",SGC,"XML",RCNT)=XBF
     399        . .QUIT
     400        .QUIT
     401        QUIT
     402        ;  ===================
     403        ;  OUTXML = OUTBF  = OUT   = OUTPUT ARRAY TO BE BUILT
     404        ;  BF     = INXML = INPUT ARRAY TO PROVIDE INPUT
     405        ;   >D NORMAL^C0CMAIL(.OUT,BF)
     406NORMAL(OUTXML,INXML)       ;NORMALIZES AN XML STRING PASSED BY NAME IN INXML
     407        ; INTO AN XML ARRAY RETURNED IN OUTXML, ALSO PASSED BY NAME
     408        ;
     409        N ZN,OUTBF,XX,ZSEP
     410        S INXML=$TR(INXML,$C(10,12,13))
     411        S ZN=1,ZSEP=">"
     412        S OUTBF(1)=$P(INXML,"><",1)_ZSEP,XX="<"_$P(INXML,"><",2)_ZSEP,ZN=2,ZL=1
     413        F ZN=ZN+1:1:$L(INXML,"><")  D   Q:XX=""
     414        . S XX=$P(INXML,"><",ZN)
     415        . S:$E($RE(XX))=">" ZSEP=""
     416        . Q:XX=""
     417        . ;
     418        . S XX="<"_XX_ZSEP
     419        . D
     420        . . I $L(XX)<4000 S OUTBF(ZL)=XX,XX=$P(INXML,"><",ZN),ZL=ZL+1   Q
     421        . . ;
     422        . . D ERROR("ER05")
     423        . . F ZL=ZL+1:1 D   Q:XX=""
     424        . . .  N XL
     425        . . .  S XL=$E(XX,1,4000)
     426        . . .  S $E(XX,1,4000)=""   ; S XX=$E(XX,4001,999999) ; Remove 4K characters
     427        . . .  S OUTBF(ZL)=XL
     428        . . .QUIT
     429        . .QUIT
     430        .QUIT
     431        M OUTXML=OUTBF
     432        QUIT
     433        ;  ===================
     434UPPER(X)        ; Convert any lowercase letters to Uppercase letters
     435        QUIT $TR(X,"abcdefghijklmnopqrstuvwxyz","ABCDEFGHIJKLMNOPQRSTUVWXYZ")
     436        ;  ===================
     437        ; EN is a counter that remains between error events
     438ERROR(ER)       ; Error Handler
     439        N TXXQ,XXXQ
     440        S XXXQ="Unknown Error Encountered = "_ER
     441        S TXXQ=$P($T(@(ER_"^"_$T(+0))),";;",2,99)
     442        I TXXQ'=""  D
     443        . I TXXQ["_" X "S TXXQ="_TXXQ
     444        . S XXXQ=TXXQ
     445        .QUIT
     446        S EN(ER)=$G(EN(ER))+1
     447        S LST("ERR",ER,EN(ER))=XXXQ
     448        QUIT
     449        ;  ===================
     450ER01    ;;Message Missing
     451ER02    ;;Message Text Missing
     452ER03    ;;Message Not Identifiable
     453ER04    ;;Segment is too large
     454ER05    ;;Mailbox Missing
     455ER06    ;;"User Missing = "_$G(DUZ)
     456ER07    ;;"Bad DUZ = "_DUZ
     457ER08    ;;"Bad Basket ID = "_MBLST_" >> "_$G(TN)
     458ER10    ;;"Bad Separator found = "_X
     459ER11    ;;"Non-Standard Separator Found:>"_$G(J)
     460ER12    ;;"Spaces are not allowed in Separators:>"_$G(J)
     461        ;  vvvvvvvvvvvvvvv  Not Needed  vvvvvvvvvvvvvvvvvvvvvvvvvv
     462        ;  End note if needed
     463        QUIT
     464        ;  ===================
  • ccr/branches/ohum/p/C0CMAIL3.m

    r1332 r1333  
    11C0CMAIL ; Communications for MIME Documents and MultiMIME ; 3110420 ; rcr/rcr
    2 V ;;0.1;C0C;nopatch;noreleasedate
    3  ;Copyright 2011 Chris Richardson, Richardson Computer Research
    4  ; Modified 3110619@2038
    5  ;   rcr@rcresearch.us
    6  ;  Licensed under the terms of the GNU
    7  ;General Public License See attached copy of the License.
    8  ;
    9  ;This program is free software; you can redistribute it and/or modify
    10  ;it under the terms of the GNU General Public License as published by
    11  ;the Free Software Foundation; either version 2 of the License, or
    12  ;(at your option) any later version.
    13  ;
    14  ;This program is distributed in the hope that it will be useful,
    15  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    16  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    17  ;GNU General Public License for more details.
    18  ;
    19  ;You should have received a copy of the GNU General Public License along
    20  ;with this program; if not, write to the Free Software Foundation, Inc.,
    21  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    22  ;
    23  ;  ------------------
    24  ;Entry Points
    25  ; DETAIL^C0CMAIL(.C0CDATA,IEN) --> Get details of the Mail Message and Attachments
    26  ; GETMSG^C0CMAIL(.C0CDATA,.C0CINPUT)
    27  ;  Input:
    28  ;    C0CINPUT = "DUZ;MAILBOX_Name[or IEN for box (comma Separated);MALL
    29  ;                      or "*" for all boxes, default is "IN" if missing]"
    30  ;                $P(C0CINPUT,";",3)=MALL, default=NUL means "New only",
    31  ;                                     "*" for All or 9,999 maximum
    32  ;                    MALL?1.n = that number of the n most recent
    33  ;  Internally:
    34  ;    BNAM = Box Name
    35  ;  Output:
    36  ;    C0CDATA
    37  ;      = (BNAM,"NUMBER") = Number of NEW Emails in Basket
    38  ;        (BNAM,"MSG",C0CIEN,"FROM")=Name
    39  ;        (BNAM,"MSG",C0CIEN,"TO",n)=DUZ, or EMAIL Address
    40  ;        (BNAM,"MSG",C0CIEN,"TO NAME",n)=Names or EMAIL Address
    41  ;        (BNAM,"MSG",C0CIEN,"TITLE")=EMAIL Title
    42  ;        (BNAM,"MSG",C0CIEN[for File 3.9])=Number of Attachments
    43  ;        (BNAM,"MSG",C0CIEN,num,"CONT") = Free Text
    44  ;        (BNAM,"MSG",C0CIEN,num,"LINES") = Number of Lines of Text
    45  ;        (BNAM,"MSG",C0CIEN,num,"SIZE") = Size of the Message in Bytes
    46  ;        (BNAM,"MSG",C0CIEN,num,"TXT",LINE#) = Message Data (No Attachment)
    47  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM) = First Line^Last Line
    48  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,"CONT",type) = Message Details
    49  ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,LINE#) = Message Data
    50  ;
    51  ; DO DETAIL^C0CMAIL(.OUTBF,D0) ; For each Email Message and Attachments
    52  ;   Input;
    53  ;     D0     - The IEN for the message in file 3.9, MESSAGE global
    54  ;   Output
    55  ;     OUTBF  - The array of your choice to save the expanded and decoded message.
    56  ;
    57 GETMSG(C0CDATA,C0CINPUT) ; Common Entry Point for Mailbox Data
    58  K:'$G(C0CDATA("KEEP")) C0CDATA
    59  N U
    60  S U="^"
    61  D:$G(C0CINPUT)
    62  . N BF,DUZ,I,INPUT,J,L,LST,MBLST,MALL
    63  . S INPUT=C0CINPUT
    64  . S DUZ=+INPUT
    65  . I $D(^VA(200,DUZ))=0!('$D(^VA(200,DUZ,0)))  D ERROR("ER06")  Q
    66  . ;
    67  . D:$D(^XMB(3.7,DUZ,0))#2
    68  . . S MBLST=$P(INPUT,";",2)
    69  . . S MALL=$P(INPUT,";",3) ; New or All Mail Flag
    70  . . S:MALL["*" MALL=99999
    71  . . ; Only one of these can be correct
    72  . . D
    73  . . . ;  If nul, make it "IN" only
    74  . . . I MBLST="" D  QUIT
    75  . . . . S MBLST("IN")=0,I=0
    76  . . . . D GATHER(DUZ,"IN",.LST)
    77  . . . .QUIT
    78  . . . ;
    79  . . . ;  If "*", Get all Mailboxes and look for New Messages
    80  . . . I MBLST["*" D  QUIT
    81  . . . . N NAM,NUM
    82  . . . . S NUM=0
    83  . . . . F  S NUM=$O(^XMB(3.7,DUZ,2,NUM)) Q:'NUM  D
    84  . . . . . S NAM=$P(^XMB(3.7,DUZ,2,NUM,0),U)
    85  . . . . . D GATHER(DUZ,NAM,.LST)
    86  . . . . .QUIT
    87  . . . .QUIT
    88  . . . ;
    89  . . . ;  If comma separated, look for mailboxes with new messages
    90  . . . I $L(MBLST,",")>1 D  QUIT
    91  . . . . S NAM=""
    92  . . . . N TN,V
    93  . . . . F TN=1:1:$L(MBLST,",")  S V=$P(MBLST,",",TN)  D
    94  . . . . . I $L(V) D   QUIT
    95  . . . . . . I V S NAM=$P($G(^XMB(3.7,DUZ,2,V,0)),U)
    96  . . . . . . S:NAM="" NAM=V
    97  . . . . . . D GATHER(DUZ,NAM,.LST)
    98  . . . . . .QUIT
    99  . . . . . ;
    100  . . . . . D ERROR("ER08")
    101  . . . . .QUIT
    102  . . . .QUIT
    103  . . . ;
    104  . . . ;  If only 1 mailbox named, go get it
    105  . . . I $L(MBLST)  D   QUIT
    106  . . . . I $D(^XMB(3.7,DUZ,2,"B",MBLST))    D GATHER(DUZ,MBLST,.LST) QUIT
    107  . . . . ;
    108  . . . . D ERROR("ER07")
    109  . . .QUIT
    110  . . MERGE C0CDATA=LST
    111  . .QUIT
    112  .QUIT
    113  QUIT
    114  ;  ===================
    115 GATHER(DUZ,NAM,LST) ; Gather Data about the Baskets and their mail
    116  N I,J,K,L
    117  S (I,K)=0
    118  S J=$O(^XMB(3.7,DUZ,2,"B",NAM,""))
    119  F  S I=$O(^XMB(3.7,DUZ,2,J,1,I)) Q:'I  D
    120  . S L=$P(^XMB(3.7,DUZ,2,J,1,I,0),U,3)
    121  . D   ; :L
    122  . . S:L K=K+1,LST(NAM,"MSG",I,"NEW")=""  ; Flag NEW emails
    123  . . S LST(NAM,"MSG",I)=L
    124  . . D GETTYP(I)
    125  . .QUIT
    126  .QUIT
    127  S LST(NAM,"NUMBER")=K
    128  QUIT
    129  ;  ===================
    130  ; D0 is the IEN into the Message Global ^XMB(3.9,D0)
    131  ; The products of these emails are scanned to identify
    132  ;  the number of documents stored in the MIME package.
    133  ;  The protocol runs like this;
    134  ; Line 1 is the --separator
    135  ; Line 2 thru n >Look for Content-[detail type:]Description ; Next CMD
    136  ; Line n+2 thru t-1 where t does NOT have "Content-"
    137  ; Line t   is Next Section Terminator, or Message Terminator, --separator
    138  ; Line t+1 should not exist in the data set if Message Terminator
    139  ; CON = "Content-"
    140  ; FLG = "--"
    141  ; SEP = FLG+7 or more characters  ; Separator
    142  ; END = SEP+FLG
    143  ; SGC = Segment Count
    144  ; Note: separator is a string of specific characters of
    145  ;        indeterminate length 
    146  ; LST() the transfer array
    147  ; LST(NAM,"MSG",C0CIEN,"SEG",SGN)=Starting Line^Ending Line
    148  ; LST(NAM,"MSG",C0CIEN,"SEG",SGN,1:n)=Decoded Message Data
    149  ;
    150 GETTYP(D0) ; Look for the goodies in the Mail
    151  N I,J,N,BCN,CON,CNT,D1,END,FLG,SEP,SGC,XX,XXNM
    152  S CON="Content-"
    153  S FLG="--"
    154  S SEP=""  ; Start SEP as null, so we can use this to help identify the type
    155  S (BCN,CNT,D1,END,SGC)=0
    156  S XX=$G(^XMB(3.9,D0,0))
    157  S LST(NAM,"MSG",D0,"TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
    158  S LST(NAM,"MSG",D0,"CREATED")=$G(^XMB(3.9,D0,.6))
    159  F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
    160  S LST(NAM,"MSG",D0,"FROM")=$$NAME(XXNM)
    161  S LST(NAM,"MSG",D0,"SENT")=$$TIME($P(XX,U,3))
    162  ; Get the folks the email is sent to.
    163  S D1=0
    164  F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D
    165  . N T
    166  . S T=+$G(^XMB(3.9,D0,1,D1,0))
    167  . S:T T=$P($G(^VA(200,+T,0)),"^")
    168  . S LST("TO",D1)=T
    169  . S T=$G(^XMB(3.9,D0,6,D1,0))
    170  . S:T T=$P($G(^VA(200,+T,0)),"^")
    171  . S:T="" T="<Unknown>"
    172  . S LST("TO NAME",D1)=T
    173  .QUIT
    174  ; Preload first Segment (0) with beginning on Line 1
    175  ;  if not a 64bit
    176  S LST(NAM,"MSG",D0,"SEG",0)=1
    177  S D1=.9999,SEP="@@"
    178  F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
    179  . ; Clear any control characters (cr/lf/ff) off
    180  . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
    181  . ; Enter once to set the SEP to capture the separator
    182  . I SEP=FLG&($E(X,1,2)=FLG)&($L(X,FLG)=2)&($L($P(X,FLG,2)>5))   D   Q
    183  . . S SEP=X,END=X_FLG
    184  . . S (CNT,SGC)=1,BCN=0
    185  . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
    186  . .QUIT
    187  . ;
    188  . ; A new separator is set, process original
    189  . I X=SEP  D  QUIT
    190  . . S LST(NAM,"MSG",D0,SGC,"SIZE")=BCN+$L(BF)
    191  . . S LST(NAM,"MSG",D0,"SEG",SGC)=$G(LST(NAM,"MSG",D0,"SEG",SGC))_"^"_(D1-1)
    192  . . S SGC=SGC+1,BCN=0
    193  . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
    194  . .QUIT
    195  . ;
    196  . S BCN=BCN+$L(X)
    197  . I X[CON D  Q
    198  . . S J=$P($P(X,";"),CON,2)
    199  . . S LST(NAM,"MSG",D0,"SEG",SGC,"CONT",CNT,$P(J,":"))=$P(J,":",2)
    200  . .QUIT
    201  . ;
    202  . ; S LST(NAM,"MSG",D0,"SEG",D1)=X
    203  .QUIT
    204  QUIT
    205  ;  ===================
    206 NAME(NM) ; Return the name of the Sender
    207  N NAME
    208  S NAME="<Unknown Sender>"
    209  D
    210  . ; Look first for a value to use with the NEW PERSON file
    211  . ;
    212  . I NM=+NM S NAME=$P(^VA(200,NM,0),U,1) Q
    213  . ;
    214  . I $L(NM) S NAME=NM                    Q
    215  . ;
    216  . ; Else, pull the data from the message and display the foreign source
    217  . ;   of the message.
    218  . N T
    219  . S VAL=$G(^XMB(3.9,D0,.7))
    220  . S:VAL T=$P(^VA(200,VAL,0),U)
    221  . I $L($G(T)) S NAME=T                  Q
    222  . ;
    223  .QUIT
    224  QUIT NAME
    225  ;  ===================
    226 TIME(Y) ; The time and date of the sending
    227  X ^DD("DD")
    228  QUIT Y
    229  ;  ===================
    230  ;  Segments in Message need to be identified and decoded properly
    231  ; D DETAIL^C0CMAIL(.ARRAY,D0) ;  Call One for each message
    232  ;   ARRAY will have the details of this one call
    233  ;   
    234  ; Inputs;
    235  ;   C0CINPUT    - The IEN of the message to expand
    236  ; Outputs;
    237  ;   C0CDATA     - Carrier for the returned structure of the Message
    238  ;  C0CDATA(D0,"SEG")=number of SEGMENTS
    239  ;  C0CDATA(D0,"SEG",0:n)=SEGMENT n details; First;Last;Type
    240  ;  C0CDATA(D0,"SEG",0:n,"CONTENT",type)=Content details
    241  ;  C0CDATA(D0,"SEG",0:n,"MSG",D3)=Content details
    242  ;  C0CDATA(D0,"SEG",0:n,"HTML",D3)=Content details
    243  ;
    244 DETAIL(C0CDATA,C0CINPUT) ; Message Detail Delivery
    245  N LST,D0,D1,U
    246  S U="^"
    247  S D0=+$G(C0CINPUT)
    248  I D0   D    QUIT
    249  . I $D(^XMB(3.9,D0))<10 D ERROR("ER01")  QUIT
    250  . ;
    251  . D GETTYP2(D0)
    252  . I $D(LST)   M C0CDATA(D0)=LST  Q
    253  . ;
    254  . D ERROR("ER02")
    255  .QUIT
    256  QUIT
    257  ;  ===================
    258  ;  End note if needed
    259  ; MSK   - Set of characters that do not exist in 64 bit encoding
    260 GETTYP2(D0) ; Try to get the types and MSK for the
    261  N I,J,K,N,BCN,BF,CON,CNT,D1,END,FLG,MSK,SEP,SGC,U,XX,ZN,XXNM
    262  S CON="Content-",U="^"
    263  S FLG="--",MSK=" !""#$%&'()*,-.:;<>?@[\]^_`{|}~"
    264  S (BF,SEP)=""  ; Start SEP as null, so we can use this to help identify the type
    265  S (BCN,CNT,D1,END,SGC)=0
    266  S XX=$G(^XMB(3.9,D0,0))
    267  ; S K=$P(^XMB(3.9,D0,2,0),U,3)
    268  S LST("TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
    269  S LST("CREATED")=$$TIME($P(XX,U,3))
    270  F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
    271  S LST("FROM")=$$NAME(XXNM)
    272  ; Get the folks the email is sent to.
    273  S D1=0
    274  F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D   Q:D1=""
    275  . N I,T
    276  . S T=$P($G(^XMB(3.9,D0,1,D1,0)),U)
    277  . S:T T=$P($G(^VA(200,T,0)),"^")
    278  . S LST("TO",+D1)=T
    279  . S T=$G(^XMB(3.9,D0,6,+D1,0))
    280  . S:T="" T=$P($G(^VA(200,+T,0)),"^")
    281  . S:T="" T="<Unknown>"
    282  . S LST("TO NAME",D1)=T
    283  .QUIT
    284  ; Get the Header for the message and store as "HDR"
    285  S D1=0,SGC=0
    286  F I=1:1 S D1=$O(^XMB(3.9,D0,2,D1)) Q:D1=""  Q:(D1>.99999)   D
    287  . S LST("HDR",I)=$G(^XMB(3.9,D0,2,D1,0))
    288  .QUIT
    289  N BNDRY,STKL,SEG
    290  S STKL=0,SEG=0
    291  ; Find boundaries and map them
    292  S D1=0
    293  F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
    294  . ; Clear any control characters (cr/lf/ff) off
    295  . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
    296  . ; Look for " boundary=" in the various parts.  Map the establishment and the
    297  . ;  terminator markers and the actual boundary markers.
    298  . I X[" boundary=" D  Q
    299  . . S SEP=$P(X," boundary=",2)
    300  . . S:$E(SEP)="""" SEP=$TR(SEP,"""")
    301  . . S STKL=STKL+1
    302  . . S END=SEP_FLG
    303  . . S BNDRY(STKL,SEP)=0
    304  . . S BNDRX(SEP)=STKL,BNDRZ(END)=0
    305  . .QUIT
    306  . ;
    307  . ; Look for information as to how amy boudaries are present and where
    308  . ;   they terminate
    309  . D:X'=""&($E(X,1,2)="--")&($E(X,$L(X)-1,9999)'="--")
    310  . . ; Boundary Found
    311  . . I $D(BNDRX(X)) D  Q
    312  . . . S SEG=SEG+1
    313  . . . S BNDRE(X)=$G(BNDRE(X))_D1_";"
    314  . . . S BND1(D1)=STKL_";B;"_SEG_";"_X
    315  . . . S BNDR(X,D1,"B")=STKL
    316  . . . I BNDRX(X)=X  D ERROR("ER13")
    317  . . .QUIT
    318  . . ;
    319  . . ; Boundary Terminator
    320  . . I $D(BNDRZ(X)) D  Q
    321  . . . S BNDR(X,D1,"E")=STKL
    322  . . . S BNDRZ(X)=BNDRZ(X)+1
    323  . . . S BND1(D1)=STKL_";E;"_SEG_";"_X
    324  . . . S SEG=SEG+1
    325  . . . I BNDRX(X)=X  D ERROR("ER14")
    326  . . . S STKL=STKL-1
    327  . . .QUIT
    328  . .QUIT
    329  .QUIT
    330  ; Start walking the TEXT/XML/64-BIT ENCODING sections of the message
    331  N A,B,C,STACK,STYP,SEG,AX
    332  S D1=.99999,SGC=0
    333  F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
    334  . ; Clear any control characters (cr/lf/ff) off
    335  . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
    336  . ;
    337  . D
    338  . . I $D(BND1(D1)) D BOUNDARY(X)    QUIT
    339  . . ;
    340  . . S DX=$O(BND1(D1))
    341  . . I DX=""  D ERROR("ER15")   Q
    342  . . ;
    343  . . ; Good situation, extract the parts for the section
    344  . . S A=$G(BND1(DX))
    345  . . S STACK=+A,STYP=$P(A,";",2),SGC=$P(A,";",3),AX=$P(A,";",4,999)
    346  . .QUIT
    347  . ; Enter once to set the SEP to capture the separator
    348  . ;
    349  . ; A new SEGMENT separator is set, process original
    350  . I $D(BND1(X))  D  QUIT
    351  . . ; Save Current Values
    352  . . S LST("SEG",SGC,"SIZE")=BCN+$L(BF)
    353  . . ;  Close this Segment and prepare to start a New Segment
    354  . . S $P(LST("SEG",SGC),"^",1,2)=$P($G(LST("SEG",SGC)),"^",1)_"^"_(D1-1)
    355  . . ;  Put the result in LST("SEG",SGC,"XML")
    356  . . I $L(BF) D
    357  . . . S ZN=1
    358  . . . N I,T,TBF
    359  . . . S TBF=BF
    360  . . . F I=1:1:($L(TBF,"="))  D
    361  . . . . S BF=$P(TBF,"=",I)_"="
    362  . . . . I "="'[BF  D DECODER(.BF,.TYP)
    363  . . . .QUIT
    364  . . . S BF=""
    365  . . .QUIT
    366  . . S SGC=SGC+1,BCN=0
    367  . . ; Incriment SGC to start a new Segment
    368  . . S LST("SEG",SGC)=D1
    369  . .QUIT
    370  . ;
    371  . ; Accumulate the 64 bit encoding, no spaces, or other non-64bit characters
    372  . I X=$TR(X,MSK)&$L(X)  S BF=BF_X  QUIT
    373  . ;
    374  . ; Ending Condition, close out the Segment
    375  . I $D(BNDRZ(X)) D  QUIT
    376  . . S $P(LST("SEG",SGC),"^",2)=D1-1
    377  . . I $L(BF) S ZN=1 D DECODER(.BF,.TYP)  S BF="" Q
    378  . .QUIT
    379  . ;
    380  . ; Accumulate the content lines of the message
    381  . S BCN=BCN+$L(X)
    382  . ; Split out the Content Info
    383  . I X[CON D  Q
    384  . . S J=$P(X,CON,2)
    385  . . S TYP="CONTENT"
    386  . . S LST("SEG",SGC,TYP,$P(J,":"))=$P(J,":",2,9)
    387  . . D CONTENT(D1)
    388  . .QUIT
    389  . ;
    390  . ; Everything else is Text, Check for CCR/CCD.
    391  . N KK,UBF
    392  . D
    393  . . S UBF=$$UPPER(X)
    394  . . I UBF["<CONTINUITYOFCARERECORD"   S $P(LST("SEG",SGC),U,3)="CCR" Q
    395  . . ;
    396  . . I UBF["<CLINICALDOCUMENT"         S $P(LST("SEG",SGC),U,3)="CCD" Q
    397  . .QUIT
    398  . ; Look for directives in the text before it gets published
    399  . ;  Look for "=3D" and replace it with a single "=".  I can do more parsing
    400  . ;  but there may be situations where the line has been wrapped.
    401  . D:X["=3D"
    402  . . F KK=1:1 S X=$P(X,"=3D",1)_"="_$P(X,"=3D",2,999) Q:X'["=3D"
    403  . .QUIT
    404  . S LST("SEG",SGC,TYP,D1)=X
    405  .QUIT
    406  QUIT
    407  ;  ===================
    408 CONTENT(D1) ; Try pulling Content Statements
    409  N J,UP,X
    410  S X=$G(^XMB(3.9,D0,2,D1,0))
    411  S J=$P(X,CON,2)
    412  S UP=$TR($$UPPER(X),"""")
    413  S:$G(TYP)="" TYP="TXT"
    414  D
    415  . I UP["NAME=",($L(UP,".")>1) S TYP=$P(UP,".",2) Q
    416  . I UP["XML" S TYP="XML"                         Q
    417  . I UP["P7S" S TYP="P7S"                         Q
    418  . I J[" boundary=" D BOUNDARY(J)
    419  .QUIT
    420  S LIS("CON",SGC,D1)=X
    421  S LIS("CON",SGC,D1,"TYP")=TYP
    422  ; If there is a follow-on, look for another line after this.
    423  I $E($RE(X),1)=";"   D CONTENT(D1+1)
    424  QUIT
    425  ;  ===================
    426 BOUNDARY(X) ; Set an additional BOUNDARY, and activate another stack level
    427  S SEP=$P($P(X," boundary=",2),"""",2),END=SEP_FLG
    428  Q:SEP?2"-".ANP
    429  ;
    430  D ERROR("ER11")
    431  Q:SEP'[" "
    432  ;
    433  D ERROR("ER12")
    434  QUIT
    435  ;  ===================
    436  ; Break down the Buffer Array so it can be saved.
    437  ;  BF is passed in.
    438  ;  TYP is the type of
    439 DECODER(BF,TYP) ;
    440  N RCNT,TBF,UBF,ZBF,ZI,ZJ,ZK,ZSIZE
    441  S:$G(TYP)="" TYP="XML"
    442  S ZBF=BF
    443  ;  Full Buffer, BF, now check for Encryption and Unpack
    444  F RCNT=1:1:$L(ZBF,"=")   D
    445  . N BF
    446  . S BF=$P(ZBF,"=",RCNT)
    447  . ;  Unpacking the 64 bit encoding
    448  . S TBF=$TR($$DECODE^RGUTUU(BF),$C(10,12,13))
    449  . D:$L(TBF)
    450  . . N C,OK,OKCNT,KK,XBF,UBF
    451  . . D
    452  . . . S UBF=$$UPPER(TBF)
    453  . . . I UBF["<CONTINUITYOFCARERECORD XMLNS=" S $P(LST("SEG",SGC),U,3)="CCR" Q
    454  . . . ;
    455  . . . I UBF["<CLINICALDOCUMENT XMLNS="       S $P(LST("SEG",SGC),U,3)="CCD" Q
    456  . . .QUIT
    457  . . ; Check for Bad Signature Decoding, after 100 bad characters
    458  . . S OK=1,OKCNT=0
    459  . . F KK=1:1:$L(UBF) S C=$A(UBF,KK) S:C>126 OKCNT=OKCNT+1 I OKCNT>100 S OK=0 Q
    460  . . ;
    461  . . D
    462  . . . I 'OK S (BF,UBF,TBF,XBF)="<Crypto-Signature redacted>" Q
    463  . . . ;
    464  . . . S BF=BF_"="
    465  . . . D NORMAL(.XBF,.TBF)
    466  . . .QUIT
    467  . . M LST("SEG",SGC,TYP,RCNT)=XBF
    468  . .QUIT
    469  .QUIT
    470  QUIT
    471  ;  ===================
    472  ;  OUTXML = OUTBF  = OUT   = OUTPUT ARRAY TO BE BUILT
    473  ;  BF     = INXML = INPUT ARRAY TO PROVIDE INPUT
    474  ;   >D NORMAL^C0CMAIL(.OUT,BF)
    475 NORMAL(OUTXML,INXML)    ;NORMALIZES AN XML STRING PASSED BY NAME IN INXML
    476  ; INTO AN XML ARRAY RETURNED IN OUTXML, ALSO PASSED BY NAME
    477  ;
    478  N ZN,OUTBF,XX,ZSEP
    479  S INXML=$TR(INXML,$C(10,12,13))
    480  S ZN=1,ZSEP=">"
    481  S OUTBF(1)=$P(INXML,"><",1)_ZSEP,XX="<"_$P(INXML,"><",2)_ZSEP,ZN=2,ZL=1
    482  F ZN=ZN+1:1:$L(INXML,"><")  D   Q:XX=""
    483  . S XX=$P(INXML,"><",ZN)
    484  . S:$E($RE(XX))=">" ZSEP=""
    485  . Q:XX=""
    486  . ;
    487  . S XX="<"_XX_ZSEP
    488  . D
    489  . . I $L(XX)<4000 S OUTBF(ZL)=XX,XX=$P(INXML,"><",ZN),ZL=ZL+1   Q
    490  . . ;
    491  . . D ERROR("ER05")
    492  . . F ZL=ZL+1:1 D   Q:XX=""
    493  . . .  N XL
    494  . . .  S XL=$E(XX,1,4000)
    495  . . .  S $E(XX,1,4000)=""   ; S XX=$E(XX,4001,999999) ; Remove 4K characters
    496  . . .  S OUTBF(ZL)=XL
    497  . . .QUIT
    498  . .QUIT
    499  .QUIT
    500  M OUTXML=OUTBF
    501  QUIT
    502  ;  ===================
    503 UPPER(X) ; Convert any lowercase letters to Uppercase letters
    504  QUIT $TR(X,"abcdefghijklmnopqrstuvwxyz","ABCDEFGHIJKLMNOPQRSTUVWXYZ")
    505  ;  ===================
    506  ; EN is a counter that remains between error events
    507 ERROR(ER) ; Error Handler
    508  N TXXQ,XXXQ
    509  S XXXQ="Unknown Error Encountered = "_ER
    510  S TXXQ=$P($T(@(ER_"^"_$T(+0))),";;",2,99)
    511  I TXXQ'=""  D
    512  . I TXXQ["_" X "S TXXQ="_TXXQ
    513  . S XXXQ=TXXQ
    514  .QUIT
    515  S EN(ER)=$G(EN(ER))+1
    516  S LST("ERR",ER,EN(ER))=XXXQ
    517  QUIT
    518  ;  ===================
    519 ER01 ;;Message Missing
    520 ER02 ;;Message Text Missing
    521 ER03 ;;Message Not Identifiable
    522 ER04 ;;Segment is too large
    523 ER05 ;;Mailbox Missing
    524 ER06 ;;"User Missing = "_$G(DUZ)
    525 ER07 ;;"Bad DUZ = "_DUZ
    526 ER08 ;;"Bad Basket ID = "_MBLST_" >> "_$G(TN)
    527 ER10 ;;"Bad Separator found = "_X
    528 ER11 ;;"Non-Standard Separator Found:>"_$G(J)
    529 ER12 ;;"Spaces are not allowed in Separators:>"_$G(J)
    530 ER13 ;;"Bad Stack Level Detected >"_STKL_":"_BNDRY(X)_":"_X
    531  ;  vvvvvvvvvvvvvvv  Not Needed  vvvvvvvvvvvvvvvvvvvvvvvvvv
    532  ;  End note if needed
    533  QUIT
    534  ;  ===================
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        ;Copyright 2011 Chris Richardson, Richardson Computer Research
     4        ; Modified 3110619@2038
     5        ;   rcr@rcresearch.us
     6        ;  Licensed under the terms of the GNU
     7        ;General Public License See attached copy of the License.
     8        ;
     9        ;This program is free software; you can redistribute it and/or modify
     10        ;it under the terms of the GNU General Public License as published by
     11        ;the Free Software Foundation; either version 2 of the License, or
     12        ;(at your option) any later version.
     13        ;
     14        ;This program is distributed in the hope that it will be useful,
     15        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     16        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     17        ;GNU General Public License for more details.
     18        ;
     19        ;You should have received a copy of the GNU General Public License along
     20        ;with this program; if not, write to the Free Software Foundation, Inc.,
     21        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     22        ;
     23        ;  ------------------
     24        ;Entry Points
     25        ; DETAIL^C0CMAIL(.C0CDATA,IEN) --> Get details of the Mail Message and Attachments
     26        ; GETMSG^C0CMAIL(.C0CDATA,.C0CINPUT)
     27        ;  Input:
     28        ;    C0CINPUT = "DUZ;MAILBOX_Name[or IEN for box (comma Separated);MALL
     29        ;                      or "*" for all boxes, default is "IN" if missing]"
     30        ;                $P(C0CINPUT,";",3)=MALL, default=NUL means "New only",
     31        ;                                     "*" for All or 9,999 maximum
     32        ;                    MALL?1.n = that number of the n most recent
     33        ;  Internally:
     34        ;    BNAM = Box Name
     35        ;  Output:
     36        ;    C0CDATA
     37        ;      = (BNAM,"NUMBER") = Number of NEW Emails in Basket
     38        ;        (BNAM,"MSG",C0CIEN,"FROM")=Name
     39        ;        (BNAM,"MSG",C0CIEN,"TO",n)=DUZ, or EMAIL Address
     40        ;        (BNAM,"MSG",C0CIEN,"TO NAME",n)=Names or EMAIL Address
     41        ;        (BNAM,"MSG",C0CIEN,"TITLE")=EMAIL Title
     42        ;        (BNAM,"MSG",C0CIEN[for File 3.9])=Number of Attachments
     43        ;        (BNAM,"MSG",C0CIEN,num,"CONT") = Free Text
     44        ;        (BNAM,"MSG",C0CIEN,num,"LINES") = Number of Lines of Text
     45        ;        (BNAM,"MSG",C0CIEN,num,"SIZE") = Size of the Message in Bytes
     46        ;        (BNAM,"MSG",C0CIEN,num,"TXT",LINE#) = Message Data (No Attachment)
     47        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM) = First Line^Last Line
     48        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,"CONT",type) = Message Details
     49        ;   (BNAM,"MSG",C0CIEN,"SEG",NUM,LINE#) = Message Data
     50        ;
     51        ; DO DETAIL^C0CMAIL(.OUTBF,D0) ; For each Email Message and Attachments
     52        ;   Input;
     53        ;     D0     - The IEN for the message in file 3.9, MESSAGE global
     54        ;   Output
     55        ;     OUTBF  - The array of your choice to save the expanded and decoded message.
     56        ;
     57GETMSG(C0CDATA,C0CINPUT)        ; Common Entry Point for Mailbox Data
     58        K:'$G(C0CDATA("KEEP")) C0CDATA
     59        N U
     60        S U="^"
     61        D:$G(C0CINPUT)
     62        . N BF,DUZ,I,INPUT,J,L,LST,MBLST,MALL
     63        . S INPUT=C0CINPUT
     64        . S DUZ=+INPUT
     65        . I $D(^VA(200,DUZ))=0!('$D(^VA(200,DUZ,0)))  D ERROR("ER06")  Q
     66        . ;
     67        . D:$D(^XMB(3.7,DUZ,0))#2
     68        . . S MBLST=$P(INPUT,";",2)
     69        . . S MALL=$P(INPUT,";",3) ; New or All Mail Flag
     70        . . S:MALL["*" MALL=99999
     71        . . ; Only one of these can be correct
     72        . . D
     73        . . . ;  If nul, make it "IN" only
     74        . . . I MBLST="" D  QUIT
     75        . . . . S MBLST("IN")=0,I=0
     76        . . . . D GATHER(DUZ,"IN",.LST)
     77        . . . .QUIT
     78        . . . ;
     79        . . . ;  If "*", Get all Mailboxes and look for New Messages
     80        . . . I MBLST["*" D  QUIT
     81        . . . . N NAM,NUM
     82        . . . . S NUM=0
     83        . . . . F  S NUM=$O(^XMB(3.7,DUZ,2,NUM)) Q:'NUM  D
     84        . . . . . S NAM=$P(^XMB(3.7,DUZ,2,NUM,0),U)
     85        . . . . . D GATHER(DUZ,NAM,.LST)
     86        . . . . .QUIT
     87        . . . .QUIT
     88        . . . ;
     89        . . . ;  If comma separated, look for mailboxes with new messages
     90        . . . I $L(MBLST,",")>1 D  QUIT
     91        . . . . S NAM=""
     92        . . . . N TN,V
     93        . . . . F TN=1:1:$L(MBLST,",")  S V=$P(MBLST,",",TN)  D
     94        . . . . . I $L(V) D   QUIT
     95        . . . . . . I V S NAM=$P($G(^XMB(3.7,DUZ,2,V,0)),U)
     96        . . . . . . S:NAM="" NAM=V
     97        . . . . . . D GATHER(DUZ,NAM,.LST)
     98        . . . . . .QUIT
     99        . . . . . ;
     100        . . . . . D ERROR("ER08")
     101        . . . . .QUIT
     102        . . . .QUIT
     103        . . . ;
     104        . . . ;  If only 1 mailbox named, go get it
     105        . . . I $L(MBLST)  D   QUIT
     106        . . . . I $D(^XMB(3.7,DUZ,2,"B",MBLST))    D GATHER(DUZ,MBLST,.LST) QUIT
     107        . . . . ;
     108        . . . . D ERROR("ER07")
     109        . . .QUIT
     110        . . MERGE C0CDATA=LST
     111        . .QUIT
     112        .QUIT
     113        QUIT
     114        ;  ===================
     115GATHER(DUZ,NAM,LST)     ; Gather Data about the Baskets and their mail
     116        N I,J,K,L
     117        S (I,K)=0
     118        S J=$O(^XMB(3.7,DUZ,2,"B",NAM,""))
     119        F  S I=$O(^XMB(3.7,DUZ,2,J,1,I)) Q:'I  D
     120        . S L=$P(^XMB(3.7,DUZ,2,J,1,I,0),U,3)
     121        . D   ; :L
     122        . . S:L K=K+1,LST(NAM,"MSG",I,"NEW")=""  ; Flag NEW emails
     123        . . S LST(NAM,"MSG",I)=L
     124        . . D GETTYP(I)
     125        . .QUIT
     126        .QUIT
     127        S LST(NAM,"NUMBER")=K
     128        QUIT
     129        ;  ===================
     130        ; D0 is the IEN into the Message Global ^XMB(3.9,D0)
     131        ; The products of these emails are scanned to identify
     132        ;  the number of documents stored in the MIME package.
     133        ;  The protocol runs like this;
     134        ; Line 1 is the --separator
     135        ; Line 2 thru n >Look for Content-[detail type:]Description ; Next CMD
     136        ; Line n+2 thru t-1 where t does NOT have "Content-"
     137        ; Line t   is Next Section Terminator, or Message Terminator, --separator
     138        ; Line t+1 should not exist in the data set if Message Terminator
     139        ; CON = "Content-"
     140        ; FLG = "--"
     141        ; SEP = FLG+7 or more characters  ; Separator
     142        ; END = SEP+FLG
     143        ; SGC = Segment Count
     144        ; Note: separator is a string of specific characters of
     145        ;        indeterminate length 
     146        ; LST() the transfer array
     147        ; LST(NAM,"MSG",C0CIEN,"SEG",SGN)=Starting Line^Ending Line
     148        ; LST(NAM,"MSG",C0CIEN,"SEG",SGN,1:n)=Decoded Message Data
     149        ;
     150GETTYP(D0)      ; Look for the goodies in the Mail
     151        N I,J,N,BCN,CON,CNT,D1,END,FLG,SEP,SGC,XX,XXNM
     152        S CON="Content-"
     153        S FLG="--"
     154        S SEP=""  ; Start SEP as null, so we can use this to help identify the type
     155        S (BCN,CNT,D1,END,SGC)=0
     156        S XX=$G(^XMB(3.9,D0,0))
     157        S LST(NAM,"MSG",D0,"TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
     158        S LST(NAM,"MSG",D0,"CREATED")=$G(^XMB(3.9,D0,.6))
     159        F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
     160        S LST(NAM,"MSG",D0,"FROM")=$$NAME(XXNM)
     161        S LST(NAM,"MSG",D0,"SENT")=$$TIME($P(XX,U,3))
     162        ; Get the folks the email is sent to.
     163        S D1=0
     164        F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D
     165        . N T
     166        . S T=+$G(^XMB(3.9,D0,1,D1,0))
     167        . S:T T=$P($G(^VA(200,+T,0)),"^")
     168        . S LST("TO",D1)=T
     169        . S T=$G(^XMB(3.9,D0,6,D1,0))
     170        . S:T T=$P($G(^VA(200,+T,0)),"^")
     171        . S:T="" T="<Unknown>"
     172        . S LST("TO NAME",D1)=T
     173        .QUIT
     174        ; Preload first Segment (0) with beginning on Line 1
     175        ;  if not a 64bit
     176        S LST(NAM,"MSG",D0,"SEG",0)=1
     177        S D1=.9999,SEP="@@"
     178        F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
     179        . ; Clear any control characters (cr/lf/ff) off
     180        . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
     181        . ; Enter once to set the SEP to capture the separator
     182        . I SEP=FLG&($E(X,1,2)=FLG)&($L(X,FLG)=2)&($L($P(X,FLG,2)>5))   D   Q
     183        . . S SEP=X,END=X_FLG
     184        . . S (CNT,SGC)=1,BCN=0
     185        . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
     186        . .QUIT
     187        . ;
     188        . ; A new separator is set, process original
     189        . I X=SEP  D  QUIT
     190        . . S LST(NAM,"MSG",D0,SGC,"SIZE")=BCN+$L(BF)
     191        . . S LST(NAM,"MSG",D0,"SEG",SGC)=$G(LST(NAM,"MSG",D0,"SEG",SGC))_"^"_(D1-1)
     192        . . S SGC=SGC+1,BCN=0
     193        . . S LST(NAM,"MSG",D0,"SEG",SGC)=D1
     194        . .QUIT
     195        . ;
     196        . S BCN=BCN+$L(X)
     197        . I X[CON D  Q
     198        . . S J=$P($P(X,";"),CON,2)
     199        . . S LST(NAM,"MSG",D0,"SEG",SGC,"CONT",CNT,$P(J,":"))=$P(J,":",2)
     200        . .QUIT
     201        . ;
     202        . ; S LST(NAM,"MSG",D0,"SEG",D1)=X
     203        .QUIT
     204        QUIT
     205        ;  ===================
     206NAME(NM)        ; Return the name of the Sender
     207        N NAME
     208        S NAME="<Unknown Sender>"
     209        D
     210        . ; Look first for a value to use with the NEW PERSON file
     211        . ;
     212        . I NM=+NM S NAME=$P(^VA(200,NM,0),U,1) Q
     213        . ;
     214        . I $L(NM) S NAME=NM                    Q
     215        . ;
     216        . ; Else, pull the data from the message and display the foreign source
     217        . ;   of the message.
     218        . N T
     219        . S VAL=$G(^XMB(3.9,D0,.7))
     220        . S:VAL T=$P(^VA(200,VAL,0),U)
     221        . I $L($G(T)) S NAME=T                  Q
     222        . ;
     223        .QUIT
     224        QUIT NAME
     225        ;  ===================
     226TIME(Y) ; The time and date of the sending
     227        X ^DD("DD")
     228        QUIT Y
     229        ;  ===================
     230        ;  Segments in Message need to be identified and decoded properly
     231        ; D DETAIL^C0CMAIL(.ARRAY,D0) ;  Call One for each message
     232        ;   ARRAY will have the details of this one call
     233        ;   
     234        ; Inputs;
     235        ;   C0CINPUT    - The IEN of the message to expand
     236        ; Outputs;
     237        ;   C0CDATA     - Carrier for the returned structure of the Message
     238        ;  C0CDATA(D0,"SEG")=number of SEGMENTS
     239        ;  C0CDATA(D0,"SEG",0:n)=SEGMENT n details; First;Last;Type
     240        ;  C0CDATA(D0,"SEG",0:n,"CONTENT",type)=Content details
     241        ;  C0CDATA(D0,"SEG",0:n,"MSG",D3)=Content details
     242        ;  C0CDATA(D0,"SEG",0:n,"HTML",D3)=Content details
     243        ;
     244DETAIL(C0CDATA,C0CINPUT)        ; Message Detail Delivery
     245        N LST,D0,D1,U
     246        S U="^"
     247        S D0=+$G(C0CINPUT)
     248        I D0   D    QUIT
     249        . I $D(^XMB(3.9,D0))<10 D ERROR("ER01")  QUIT
     250        . ;
     251        . D GETTYP2(D0)
     252        . I $D(LST)   M C0CDATA(D0)=LST  Q
     253        . ;
     254        . D ERROR("ER02")
     255        .QUIT
     256        QUIT
     257        ;  ===================
     258        ;  End note if needed
     259        ; MSK   - Set of characters that do not exist in 64 bit encoding
     260GETTYP2(D0)     ; Try to get the types and MSK for the
     261        N I,J,K,N,BCN,BF,CON,CNT,D1,END,FLG,MSK,SEP,SGC,U,XX,ZN,XXNM
     262        S CON="Content-",U="^"
     263        S FLG="--",MSK=" !""#$%&'()*,-.:;<>?@[\]^_`{|}~"
     264        S (BF,SEP)=""  ; Start SEP as null, so we can use this to help identify the type
     265        S (BCN,CNT,D1,END,SGC)=0
     266        S XX=$G(^XMB(3.9,D0,0))
     267        ; S K=$P(^XMB(3.9,D0,2,0),U,3)
     268        S LST("TITLE")=$P($G(^XMB(3.9,D0,0)),U,1)
     269        S LST("CREATED")=$$TIME($P(XX,U,3))
     270        F I=4,2 S XXNM=$P(XX,U,I)  Q:$L(XXNM)
     271        S LST("FROM")=$$NAME(XXNM)
     272        ; Get the folks the email is sent to.
     273        S D1=0
     274        F  S D1=$O(^XMB(3.9,D0,1,D1)) Q:'D1  D   Q:D1=""
     275        . N I,T
     276        . S T=$P($G(^XMB(3.9,D0,1,D1,0)),U)
     277        . S:T T=$P($G(^VA(200,T,0)),"^")
     278        . S LST("TO",+D1)=T
     279        . S T=$G(^XMB(3.9,D0,6,+D1,0))
     280        . S:T="" T=$P($G(^VA(200,+T,0)),"^")
     281        . S:T="" T="<Unknown>"
     282        . S LST("TO NAME",D1)=T
     283        .QUIT
     284        ; Get the Header for the message and store as "HDR"
     285        S D1=0,SGC=0
     286        F I=1:1 S D1=$O(^XMB(3.9,D0,2,D1)) Q:D1=""  Q:(D1>.99999)   D
     287        . S LST("HDR",I)=$G(^XMB(3.9,D0,2,D1,0))
     288        .QUIT
     289        N BNDRY,STKL,SEG
     290        S STKL=0,SEG=0
     291        ; Find boundaries and map them
     292        S D1=0
     293        F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
     294        . ; Clear any control characters (cr/lf/ff) off
     295        . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
     296        . ; Look for " boundary=" in the various parts.  Map the establishment and the
     297        . ;  terminator markers and the actual boundary markers.
     298        . I X[" boundary=" D  Q
     299        . . S SEP=$P(X," boundary=",2)
     300        . . S:$E(SEP)="""" SEP=$TR(SEP,"""")
     301        . . S STKL=STKL+1
     302        . . S END=SEP_FLG
     303        . . S BNDRY(STKL,SEP)=0
     304        . . S BNDRX(SEP)=STKL,BNDRZ(END)=0
     305        . .QUIT
     306        . ;
     307        . ; Look for information as to how amy boudaries are present and where
     308        . ;   they terminate
     309        . D:X'=""&($E(X,1,2)="--")&($E(X,$L(X)-1,9999)'="--")
     310        . . ; Boundary Found
     311        . . I $D(BNDRX(X)) D  Q
     312        . . . S SEG=SEG+1
     313        . . . S BNDRE(X)=$G(BNDRE(X))_D1_";"
     314        . . . S BND1(D1)=STKL_";B;"_SEG_";"_X
     315        . . . S BNDR(X,D1,"B")=STKL
     316        . . . I BNDRX(X)=X  D ERROR("ER13")
     317        . . .QUIT
     318        . . ;
     319        . . ; Boundary Terminator
     320        . . I $D(BNDRZ(X)) D  Q
     321        . . . S BNDR(X,D1,"E")=STKL
     322        . . . S BNDRZ(X)=BNDRZ(X)+1
     323        . . . S BND1(D1)=STKL_";E;"_SEG_";"_X
     324        . . . S SEG=SEG+1
     325        . . . I BNDRX(X)=X  D ERROR("ER14")
     326        . . . S STKL=STKL-1
     327        . . .QUIT
     328        . .QUIT
     329        .QUIT
     330        ; Start walking the TEXT/XML/64-BIT ENCODING sections of the message
     331        N A,B,C,STACK,STYP,SEG,AX
     332        S D1=.99999,SGC=0
     333        F  S D1=$O(^XMB(3.9,D0,2,D1)) Q:'D1  D
     334        . ; Clear any control characters (cr/lf/ff) off
     335        . S X=$TR($G(^XMB(3.9,D0,2,D1,0)),$C(10,12,13))
     336        . ;
     337        . D
     338        . . I $D(BND1(D1)) D BOUNDARY(X)    QUIT
     339        . . ;
     340        . . S DX=$O(BND1(D1))
     341        . . I DX=""  D ERROR("ER15")   Q
     342        . . ;
     343        . . ; Good situation, extract the parts for the section
     344        . . S A=$G(BND1(DX))
     345        . . S STACK=+A,STYP=$P(A,";",2),SGC=$P(A,";",3),AX=$P(A,";",4,999)
     346        . .QUIT
     347        . ; Enter once to set the SEP to capture the separator
     348        . ;
     349        . ; A new SEGMENT separator is set, process original
     350        . I $D(BND1(X))  D  QUIT
     351        . . ; Save Current Values
     352        . . S LST("SEG",SGC,"SIZE")=BCN+$L(BF)
     353        . . ;  Close this Segment and prepare to start a New Segment
     354        . . S $P(LST("SEG",SGC),"^",1,2)=$P($G(LST("SEG",SGC)),"^",1)_"^"_(D1-1)
     355        . . ;  Put the result in LST("SEG",SGC,"XML")
     356        . . I $L(BF) D
     357        . . . S ZN=1
     358        . . . N I,T,TBF
     359        . . . S TBF=BF
     360        . . . F I=1:1:($L(TBF,"="))  D
     361        . . . . S BF=$P(TBF,"=",I)_"="
     362        . . . . I "="'[BF  D DECODER(.BF,.TYP)
     363        . . . .QUIT
     364        . . . S BF=""
     365        . . .QUIT
     366        . . S SGC=SGC+1,BCN=0
     367        . . ; Incriment SGC to start a new Segment
     368        . . S LST("SEG",SGC)=D1
     369        . .QUIT
     370        . ;
     371        . ; Accumulate the 64 bit encoding, no spaces, or other non-64bit characters
     372        . I X=$TR(X,MSK)&$L(X)  S BF=BF_X  QUIT
     373        . ;
     374        . ; Ending Condition, close out the Segment
     375        . I $D(BNDRZ(X)) D  QUIT
     376        . . S $P(LST("SEG",SGC),"^",2)=D1-1
     377        . . I $L(BF) S ZN=1 D DECODER(.BF,.TYP)  S BF="" Q
     378        . .QUIT
     379        . ;
     380        . ; Accumulate the content lines of the message
     381        . S BCN=BCN+$L(X)
     382        . ; Split out the Content Info
     383        . I X[CON D  Q
     384        . . S J=$P(X,CON,2)
     385        . . S TYP="CONTENT"
     386        . . S LST("SEG",SGC,TYP,$P(J,":"))=$P(J,":",2,9)
     387        . . D CONTENT(D1)
     388        . .QUIT
     389        . ;
     390        . ; Everything else is Text, Check for CCR/CCD.
     391        . N KK,UBF
     392        . D
     393        . . S UBF=$$UPPER(X)
     394        . . I UBF["<CONTINUITYOFCARERECORD"   S $P(LST("SEG",SGC),U,3)="CCR" Q
     395        . . ;
     396        . . I UBF["<CLINICALDOCUMENT"         S $P(LST("SEG",SGC),U,3)="CCD" Q
     397        . .QUIT
     398        . ; Look for directives in the text before it gets published
     399        . ;  Look for "=3D" and replace it with a single "=".  I can do more parsing
     400        . ;  but there may be situations where the line has been wrapped.
     401        . D:X["=3D"
     402        . . F KK=1:1 S X=$P(X,"=3D",1)_"="_$P(X,"=3D",2,999) Q:X'["=3D"
     403        . .QUIT
     404        . S LST("SEG",SGC,TYP,D1)=X
     405        .QUIT
     406        QUIT
     407        ;  ===================
     408CONTENT(D1)     ; Try pulling Content Statements
     409        N J,UP,X
     410        S X=$G(^XMB(3.9,D0,2,D1,0))
     411        S J=$P(X,CON,2)
     412        S UP=$TR($$UPPER(X),"""")
     413        S:$G(TYP)="" TYP="TXT"
     414        D
     415        . I UP["NAME=",($L(UP,".")>1) S TYP=$P(UP,".",2) Q
     416        . I UP["XML" S TYP="XML"                         Q
     417        . I UP["P7S" S TYP="P7S"                         Q
     418        . I J[" boundary=" D BOUNDARY(J)
     419        .QUIT
     420        S LIS("CON",SGC,D1)=X
     421        S LIS("CON",SGC,D1,"TYP")=TYP
     422        ; If there is a follow-on, look for another line after this.
     423        I $E($RE(X),1)=";"   D CONTENT(D1+1)
     424        QUIT
     425        ;  ===================
     426BOUNDARY(X)     ; Set an additional BOUNDARY, and activate another stack level
     427        S SEP=$P($P(X," boundary=",2),"""",2),END=SEP_FLG
     428        Q:SEP?2"-".ANP
     429        ;
     430        D ERROR("ER11")
     431        Q:SEP'[" "
     432        ;
     433        D ERROR("ER12")
     434        QUIT
     435        ;  ===================
     436        ; Break down the Buffer Array so it can be saved.
     437        ;  BF is passed in.
     438        ;  TYP is the type of
     439DECODER(BF,TYP) ;
     440        N RCNT,TBF,UBF,ZBF,ZI,ZJ,ZK,ZSIZE
     441        S:$G(TYP)="" TYP="XML"
     442        S ZBF=BF
     443        ;  Full Buffer, BF, now check for Encryption and Unpack
     444        F RCNT=1:1:$L(ZBF,"=")   D
     445        . N BF
     446        . S BF=$P(ZBF,"=",RCNT)
     447        . ;  Unpacking the 64 bit encoding
     448        . S TBF=$TR($$DECODE^RGUTUU(BF),$C(10,12,13))
     449        . D:$L(TBF)
     450        . . N C,OK,OKCNT,KK,XBF,UBF
     451        . . D
     452        . . . S UBF=$$UPPER(TBF)
     453        . . . I UBF["<CONTINUITYOFCARERECORD XMLNS=" S $P(LST("SEG",SGC),U,3)="CCR" Q
     454        . . . ;
     455        . . . I UBF["<CLINICALDOCUMENT XMLNS="       S $P(LST("SEG",SGC),U,3)="CCD" Q
     456        . . .QUIT
     457        . . ; Check for Bad Signature Decoding, after 100 bad characters
     458        . . S OK=1,OKCNT=0
     459        . . F KK=1:1:$L(UBF) S C=$A(UBF,KK) S:C>126 OKCNT=OKCNT+1 I OKCNT>100 S OK=0 Q
     460        . . ;
     461        . . D
     462        . . . I 'OK S (BF,UBF,TBF,XBF)="<Crypto-Signature redacted>" Q
     463        . . . ;
     464        . . . S BF=BF_"="
     465        . . . D NORMAL(.XBF,.TBF)
     466        . . .QUIT
     467        . . M LST("SEG",SGC,TYP,RCNT)=XBF
     468        . .QUIT
     469        .QUIT
     470        QUIT
     471        ;  ===================
     472        ;  OUTXML = OUTBF  = OUT   = OUTPUT ARRAY TO BE BUILT
     473        ;  BF     = INXML = INPUT ARRAY TO PROVIDE INPUT
     474        ;   >D NORMAL^C0CMAIL(.OUT,BF)
     475NORMAL(OUTXML,INXML)       ;NORMALIZES AN XML STRING PASSED BY NAME IN INXML
     476        ; INTO AN XML ARRAY RETURNED IN OUTXML, ALSO PASSED BY NAME
     477        ;
     478        N ZN,OUTBF,XX,ZSEP
     479        S INXML=$TR(INXML,$C(10,12,13))
     480        S ZN=1,ZSEP=">"
     481        S OUTBF(1)=$P(INXML,"><",1)_ZSEP,XX="<"_$P(INXML,"><",2)_ZSEP,ZN=2,ZL=1
     482        F ZN=ZN+1:1:$L(INXML,"><")  D   Q:XX=""
     483        . S XX=$P(INXML,"><",ZN)
     484        . S:$E($RE(XX))=">" ZSEP=""
     485        . Q:XX=""
     486        . ;
     487        . S XX="<"_XX_ZSEP
     488        . D
     489        . . I $L(XX)<4000 S OUTBF(ZL)=XX,XX=$P(INXML,"><",ZN),ZL=ZL+1   Q
     490        . . ;
     491        . . D ERROR("ER05")
     492        . . F ZL=ZL+1:1 D   Q:XX=""
     493        . . .  N XL
     494        . . .  S XL=$E(XX,1,4000)
     495        . . .  S $E(XX,1,4000)=""   ; S XX=$E(XX,4001,999999) ; Remove 4K characters
     496        . . .  S OUTBF(ZL)=XL
     497        . . .QUIT
     498        . .QUIT
     499        .QUIT
     500        M OUTXML=OUTBF
     501        QUIT
     502        ;  ===================
     503UPPER(X)        ; Convert any lowercase letters to Uppercase letters
     504        QUIT $TR(X,"abcdefghijklmnopqrstuvwxyz","ABCDEFGHIJKLMNOPQRSTUVWXYZ")
     505        ;  ===================
     506        ; EN is a counter that remains between error events
     507ERROR(ER)       ; Error Handler
     508        N TXXQ,XXXQ
     509        S XXXQ="Unknown Error Encountered = "_ER
     510        S TXXQ=$P($T(@(ER_"^"_$T(+0))),";;",2,99)
     511        I TXXQ'=""  D
     512        . I TXXQ["_" X "S TXXQ="_TXXQ
     513        . S XXXQ=TXXQ
     514        .QUIT
     515        S EN(ER)=$G(EN(ER))+1
     516        S LST("ERR",ER,EN(ER))=XXXQ
     517        QUIT
     518        ;  ===================
     519ER01    ;;Message Missing
     520ER02    ;;Message Text Missing
     521ER03    ;;Message Not Identifiable
     522ER04    ;;Segment is too large
     523ER05    ;;Mailbox Missing
     524ER06    ;;"User Missing = "_$G(DUZ)
     525ER07    ;;"Bad DUZ = "_DUZ
     526ER08    ;;"Bad Basket ID = "_MBLST_" >> "_$G(TN)
     527ER10    ;;"Bad Separator found = "_X
     528ER11    ;;"Non-Standard Separator Found:>"_$G(J)
     529ER12    ;;"Spaces are not allowed in Separators:>"_$G(J)
     530ER13    ;;"Bad Stack Level Detected >"_STKL_":"_BNDRY(X)_":"_X
     531        ;  vvvvvvvvvvvvvvv  Not Needed  vvvvvvvvvvvvvvvvvvvvvvvvvv
     532        ;  End note if needed
     533        QUIT
     534        ;  ===================
  • ccr/branches/ohum/p/C0CMCCD.m

    r1332 r1333  
    11C0CMCCD   ; GPL - MXML based CCD utilities;12/04/09  17:05
    2  ;;0.1;C0C;nopatch;noreleasedate
    3  ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  Q
    21  ;
    22 PARSCCD(DOC,OPTION) ; THIS WAS COPIED FROM EN^MXMLDOM TO CUSTIMIZE FOR
    23  ; PROCESSING CCDS
    24  N CBK,SUCCESS,LEVEL,NODE,HANDLE
    25  K ^TMP("MXMLERR",$J)
    26  L +^TMP("MXMLDOM",$J):5
    27  E  Q 0
    28  S HANDLE=$O(^TMP("MXMLDOM",$J,""),-1)+1,^(HANDLE)=""
    29  L -^TMP("MXMLDOM",$J)
    30  S CBK("STARTELEMENT")="STARTELE^C0CMCCD" ; ONLY THIS ONE IS CHANGED ;GPL
    31  S CBK("ENDELEMENT")="ENDELE^MXMLDOM"
    32  S CBK("COMMENT")="COMMENT^MXMLDOM"
    33  S CBK("CHARACTERS")="CHAR^MXMLDOM"
    34  S CBK("ENDDOCUMENT")="ENDDOC^MXMLDOM"
    35  S CBK("ERROR")="ERROR^MXMLDOM"
    36  S (SUCCESS,LEVEL,LEVEL(0),NODE)=0,OPTION=$G(OPTION,"V1")
    37  D EN^MXMLPRSE(DOC,.CBK,OPTION)
    38  D:'SUCCESS DELETE^MXMLDOM(HANDLE)
    39  Q $S(SUCCESS:HANDLE,1:0)
    40  ; Start element
    41  ; Create new child node and push info on stack
    42 STARTELE(ELE,ATTR) ; COPIED FROM STARTELE^MXMLDOM AND MODIFIED TO TREAT
    43  ; ATTRIBUTES AS SUBELEMENTS TO MAKE CCD XPATH PROCESSING EASIER
    44  N PARENT
    45  S PARENT=LEVEL(LEVEL),NODE=NODE+1
    46  S:PARENT ^TMP("MXMLDOM",$J,HANDLE,PARENT,"C",NODE)=ELE
    47  S LEVEL=LEVEL+1,LEVEL(LEVEL)=NODE,LEVEL(LEVEL,0)=ELE
    48  S ^TMP("MXMLDOM",$J,HANDLE,NODE)=ELE,^(NODE,"P")=PARENT
    49  ;M ^("A")=ATTR
    50  N ZI S ZI="" ; INDEX FOR ATTR
    51  F  S ZI=$O(ATTR(ZI)) Q:ZI=""  D  ; FOR EACH ATTRIBUTE
    52  . N ELE,TXT ; ABOUT TO RECURSE
    53  . S ELE=ZI ; TAG
    54  . S TXT=ATTR(ZI) ; DATA
    55  . D STARTELE(ELE,"") ; CREATE A NEW SUBNODE
    56  . D TXT^MXMLDOM("T") ; INSERT DATA TO TAG
    57  . D ENDELE^MXMLDOM(ELE) ; POP BACK UP A LEVEL
    58  Q
    59  ;
    60 ISMULT(ZOID) ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
    61  N ZN
    62  ;I $$TAG(ZOID)["entry" B
    63  S ZN=$$NXTSIB(ZOID)
    64  I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
    65  Q 0
    66  ;
    67 FIRST(ZOID) ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
    68  Q $$CHILD^MXMLDOM(C0CDOCID,ZOID)
    69  ;
    70 PARENT(ZOID) ;RETURNS THE OID OF THE PARENT OF ZOID
    71  Q $$PARENT^MXMLDOM(C0CDOCID,ZOID)
    72  ;
    73 ATT(RTN,NODE) ;GET ATTRIBUTES FOR ZOID
    74  S HANDLE=C0CDOCID
    75  K @RTN
    76  D GETTXT^MXMLDOM("A")
    77  Q
    78  ;
    79 TAG(ZOID) ; RETURNS THE XML TAG FOR THE NODE
    80  ;I ZOID=149 B ;GPLTEST
    81  N X,Y
    82  S Y=""
    83  S X=$G(C0CCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
    84  I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
    85  I Y="" S Y=$$NAME^MXMLDOM(C0CDOCID,ZOID)
    86  Q Y
    87  ;
    88 NXTSIB(ZOID) ; RETURNS THE NEXT SIBLING
    89  Q $$SIBLING^MXMLDOM(C0CDOCID,ZOID)
    90  ;
    91 DATA(ZT,ZOID) ; RETURNS DATA FOR THE NODE
    92  ;N ZT,ZN S ZT=""
    93  ;S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
    94  ;Q $G(@C0CDOM@(ZOID,"T",1))
    95  S ZN=$$TEXT^MXMLDOM(C0CDOCID,ZOID,ZT)
    96  Q
    97  ;
    98 CLEANARY(OUTARY,INARY) ; GOES THROUGH AN ARRAY AND CALLS CLEAN ON EACH NODE
    99  ; INARY AND OUTARY PASSED BY NAME
    100  N ZI S ZI=""
    101  F  S ZI=$O(@INARY@(ZI)) Q:ZI=""  D  ; FOR EACH NODE
    102  . S @OUTARY@(ZI)=$$CLEAN(@INARY@(ZI)) ; CLEAN THE NODE
    103  Q
    104  ;
    105 CLEAN(STR) ; extrinsic function; returns string
    106  ;; Removes all non printable characters from a string.
    107  ;; STR by Value
    108  N TR,I
    109  F I=0:1:31 S TR=$G(TR)_$C(I)
    110  S TR=TR_$C(127)
    111  QUIT $TR(STR,TR)
    112  ;
    113 STRIPTXT(OUTARY,ZARY) ; STRIPS THE "TEXT" PORTION OUT OF AN XML FILE
    114  ; THIS IS USED TO DELETE THE NARATIVE HTML OUT OF THE CCD XML FILES BECAUSE
    115  ; THEY DO NOT WORK RIGHT WITH THE PARSER
    116  ;N ZWRK,ZBLD,ZI ; WORK ARRAY,BUILD ARRAY, AND COUNTER
    117  S ZI=$O(@ZARY@("")) ; GET FIRST LINE NUMBER
    118  D C0CBEGIN("ZWRK",ZI) ; INSERT FIRST LINE IN WORK ARRAY
    119  F  S ZI=$O(@ZARY@(ZI)) Q:ZI=""  D  ; FOR EACH LINE OF THE ARRAY
    120  . I $O(@ZARY@(ZI))="" D  Q  ; AT THE END
    121  . . D C0CEND("ZWRK",ZI) ; INCLUDE LAST LINE IN WORK ARRAY
    122  . I ZI=1 D C0CBEGIN("ZWRK",ZI) ; START WITH FIRST LINE
    123  . I @ZARY@(ZI)["<text" D C0CEND("ZWRK",ZI-1) ;PREV LINE IS AN END
    124  . I @ZARY@(ZI)["</text>" D C0CBEGIN("ZWRK",ZI+1) ;NEXT LINE IS A BEGIN
    125  S ZI=""
    126  F  S ZI=$O(ZWRK(ZI)) Q:ZI=""  D  ; MAKE A BUILD LIST FROM THE WORK ARRAY
    127  . D QUEUE^C0CXPATH("ZBLD",ZARY,$P(ZWRK(ZI),"^",1),$P(ZWRK(ZI),"^",2))
    128  D BUILD^C0CXPATH("ZBLD",OUTARY) ; BUILD NEW ARRAY WITHOUT TEXT SECTIONS
    129  K @OUTARY@(0) ; GET RID OF THE LINE COUNT
    130  Q
    131  ;
    132 C0CBEGIN(ZA,LN) ; INSERTS A BEGIN LINE LN INTO ARRAY ZWRK, PASSED BY NAME
    133  N ZI
    134  S ZI=$O(@ZA@(""),-1)
    135  I ZI="" S ZI=1
    136  E  S ZI=ZI+1 ; INCREMENT COUNT IN WORK ARRAY
    137  S $P(@ZA@(ZI),"^",1)=LN
    138  Q
    139  ;
    140 C0CEND(ZB,LN) ; INSERTS AN END LINE LN INTO ARRAY ZWRK, PASSED BY NAME
    141  N ZI
    142  S ZI=$O(@ZB@(""),-1)
    143  I ZI="" S ZI=1
    144  S $P(@ZB@(ZI),"^",2)=LN
    145  Q
    146  ;
    147 SEPARATE(OUTARY,INARY) ; SEPARATES XPATH VARIABLES ACCORDING TO THEIR
    148  ; ROOT ; /Problems/etc/etc goes to @OUTARY@("Problems","/Problems/etc/etc")
    149  S ZI=""
    150  F  S ZI=$O(@INARY@(ZI)) Q:ZI=""  D  ; FOR EACH ELEMENT OF THE ARRAY
    151  . I $P(ZI,"//",2)'="" D  ; FOR NON-BODY ENTRIES
    152  . . S ZJ=$P(ZI,"/",4) ; things like From Patient Actor
    153  . E  D  ; FOR BODY PARTS
    154  . . S ZJ=$P(ZI,"/",2) ;
    155  . . I ZJ="" S ZJ=$P(ZI,"/",3) ;
    156  . S @OUTARY@(ZJ,ZI)=$G(@INARY@(ZI)) ;FIX THIS FOR MULTILINE COMMENTS
    157  Q
    158  ;
    159 FINDTID ; FIND TEMPLATE IDS IN DOM 1
    160  S C0CDOCID=1
    161  S ZD=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
    162  S ZN=""
    163  S CURSEC=""
    164  S TID=""
    165  F  S ZN=$O(@ZD@(ZN)) Q:ZN=""  D  ;
    166  . I $$TAG(ZN)="root" D  ;
    167  . . I $$TAG($$PARENT(ZN))="templateId" D  ; ONLY LOOKING FOR TEMPLATES
    168  . . . S ZG=$$PARENT($$PARENT(ZN))
    169  . . . S ZG2=$$PARENT(ZG) ;COMPONENT THAT HOLDS THIS SECTION
    170  . . . S CMT=$G(@ZD@(ZG,"X",1))
    171  . . . I CMT="" S CMT="?"
    172  . . . I $$TAG(ZG)="section" D  ;START OF A SECTION
    173  . . . . S CURSEC=$$PARENT(ZG)
    174  . . . . S SECCMT=$G(@ZD@(CURSEC,"X",1))
    175  . . . . I SECCMT="" S SECCMT="?"
    176  . . . . S SECTID=$G(@ZD@(ZN,"T",1)) ;SECTION TEMPLATE ID
    177  . . . S TID=$G(@ZD@(ZN,"T",1)) ;TEMPLATE ID
    178  . . . I CURSEC'="" D  ; IF WE ARE IN A SECTION
    179  . . . . S CCDDIR(ZG2,CURSEC,$$TAG(ZG2),CMT,SECCMT)=TID
    180  . . . . S DOMMAP(ZG2)=CURSEC_U_$$TAG(ZG2)_U_TID_U_SECTID
    181  . . . W !,$$TAG(ZG2)," ",$G(@ZD@(ZG,"X",1))
    182  . . . W " root ",ZN," ",@ZD@(ZN,"T",1)
    183  Q
    184  ;
    185 FINDALT ; PROCESS THE DOMMAP AND FIND THE ALT TAGS FOR COMPONENTS
    186  ;
    187  S ZI=""
    188  F  S ZI=$O(DOMMAP(ZI)) Q:ZI=""  D  ; FOR EACH NODE IN THE MAP
    189  . S ZJ=DOMMAP(ZI) ;
    190  . S PARNODE=$P(ZJ,U,1) ;PARENT NODE
    191  . S TAG=$P(ZJ,U,2) ;THIS TAG
    192  . S TID=$P(ZJ,U,3) ;THIS TEMPLATE ID
    193  . S PARTID=$P(ZJ,U,4) ;PARENT TEMPLATE ID
    194  . S ZIEN=$O(^C0CXDS(178.101,"TID",TID,"")) ;THIS NODE IEN
    195  . S PARIEN=$O(^C0CXDS(178.101,"TID",PARTID,"")) ;PARENT NODE IEN
    196  . I ZI=PARNODE D  ; IF THIS IS A SECTION NODE
    197  . . S ALTTAG=$$GET1^DIQ(178.101,PARIEN_",",.03) ;ALT TAG FIELD FOR PARENT
    198  . . S NAME=$$GET1^DIQ(178.101,ZIEN_",",.01) ;NAME OF THIS NODE'S TEMPLATE
    199  . . W ZI," ",TAG," ",ALTTAG," ",NAME,!
    200  . . S C0CTAGS(ZI)=ALTTAG
    201  . E  D  ; NOT A SECTION NODE
    202  . . N ZJ S ZJ=""
    203  . . S ZJ=$O(^C0CXDS(178.101,"D",PARIEN,ZIEN,"")) ;A WHEREUSED POINTER?
    204  . . I ZJ'="" D  ; THERE IS A NEW LABEL FOR THIS NODE
    205  . . . N ZK
    206  . . . S ZK=$$GET1^DIQ(178.111,ZJ_","_ZIEN_",",2)
    207  . . . I ZK'="" D  ;
    208  . . . . W "FOUND ",ZK,!
    209  . . . . S C0CTAGS(ZI)=ZK ; NEW TAG FOR INTERSECTION
    210  Q
    211  ;
    212 ALTTAG(NODE) ; SET Y EQUAL TO THE ALT TAG FOUND IN C0CTAGS IF NODE IF FOUND
    213  ;
    214  S Y=$G(C0CTAGS(NODE))
    215  Q
    216  ;
    217 SETCBK ; SET THE TAG CALLBACK FOR XPATH PROCESSSING OF THE CCD
    218  S C0CCBK("TAG")="D ALTTAG^C0CMCCD(ZOID)"
    219  Q
    220  ;
    221 OUTCCD(GARYIN) ; OUTPUT THE PARSED CCD TO A TEXT FILE
    222  ;D TEST3^C0CMXML
    223  N ZT S ZT=$NA(^TMP("CCDOUT",$J))
    224  N ZI,ZJ
    225  S ZI=1 S ZJ=""
    226  K @ZT
    227  F  S ZJ=$O(GARYIN(ZJ)) Q:ZJ=""  D  ;
    228  . S @ZT@(ZI)=ZJ_"^"_GARYIN(ZJ)
    229  . S ZI=ZI+1
    230  S ONAME=$NA(@ZT@(1))
    231  W $$OUTPUT^C0CXPATH(ONAME,"CCDOUT.txt","/home/vademo2/CCR")
    232  K @ZT
    233  Q
    234  ;
    235 GENXDS(ZD) ; GENERATE THE XDS PROTOTYPE RECORDS FROM A CCDDIR ARRAY
    236  ; ARRAY ELEMENTS LOOK LIKE:
    237  ; CCDDIR(1659,1634,"observation"," Result observaion template "," Vital signs section template ")="2.16.840.1.113883.10.20.1.31"
    238  ;or CCDDIR(cur node,section node,cur tag,cur name,sec name)=templateId
    239  S ZF=178.101 ; FILE NUMBER FOR THE C0C XDS PROTOTYPE FILE
    240  S ZI=$Q(@ZD@("")) ;FIRST ARRAY ELEMENT
    241  S DONE=0
    242  F  Q:DONE  D  ;
    243  . W @ZI,!
    244  . S ZJ=$QS(ZI,5)
    245  . S ZJ=$E(ZJ,2,$L(ZJ)) ;STRIP THE LEADING SPACE
    246  . S C0CFDA(ZF,"?+1,",.01)=ZJ
    247  . S C0CFDA(ZF,"?+1,",.02)=$QS(ZI,4) ; TAG FOR THIS TEMPLATE
    248  . S C0CFDA(ZF,"?+1,",1)=@ZI
    249  . D UPDIE
    250  . S ZI=$Q(@ZI)
    251  . I ZI="" S DONE=1
    252  Q
    253  ;
    254 WHRUSD(ZD) ; UPDATE THE C0C XDS FILE WITH WHERE USED DATA FROM
    255  ; CCDDIR PASS BY NAME
    256  ; ARRAY ELEMENTS LOOK LIKE:
    257  ; CCDDIR(1634," Vital signs section template ",1659,"observation"," Result observaion template ")="2.16.840.1.113883.10.20.1.31"
    258  ;or CCDDIR(section node,sec name, cur node,cur tag,cur name)=templateId
    259  S ZF=178.101 ; FILE NUMBER FOR THE C0C XDS PROTOTYPE FILE
    260  S ZSF=178.111 ; WHERE USED SUBFILE OF C0C XDS PROTOTYPE FILE
    261  S ZI=$Q(@ZD@("")) ;FIRST ARRAY ELEMENT
    262  S DONE=0
    263  F  Q:DONE  D  ;
    264  . W @ZI
    265  . S ZIEN=$O(^C0CXDS(178.101,"TID",@ZI,"")) ; IEN FOR THIS NODE'S TEMPLATE
    266  . W " IEN:",ZIEN
    267  . S ZJ=$QS(ZI,2)
    268  . S ZJ=$E(ZJ,2,$L(ZJ)) ;STRIP THE LEADING SPACE
    269  . S ZPIEN=$O(^C0CXDS(178.101,"B",ZJ,"")) ; PARENT IEN
    270  . W " PARENT IEN:",ZPIEN
    271  . S ZTAG=$QS(ZI,4) ; TAG FOR THIS TEMPLATE
    272  . W " TAG:",ZTAG,!
    273  . I ZIEN'=ZPIEN D  ; ONLY FOR CHILD TEMPLATES
    274  . . S C0CFDA(ZSF,"?+1,"_ZIEN_",",.01)=ZPIEN ; NEW SUBFILE ENTRY WITH PAR PTR
    275  . . S C0CFDA(ZSF,"?+1,"_ZIEN_",",1)=ZTAG ; TAG FOR NEW ENTRY
    276  . . D UPDIE
    277  . ;S C0CFDA(ZF,"?+1,",1)=@ZI
    278  . ;D UPDIE
    279  . S ZI=$Q(@ZI)
    280  . I ZI="" S DONE=1
    281  Q
    282  ;
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        Q
     21        ;
     22PARSCCD(DOC,OPTION)     ; THIS WAS COPIED FROM EN^MXMLDOM TO CUSTIMIZE FOR
     23        ; PROCESSING CCDS
     24        N CBK,SUCCESS,LEVEL,NODE,HANDLE
     25        K ^TMP("MXMLERR",$J)
     26        L +^TMP("MXMLDOM",$J):5
     27        E  Q 0
     28        S HANDLE=$O(^TMP("MXMLDOM",$J,""),-1)+1,^(HANDLE)=""
     29        L -^TMP("MXMLDOM",$J)
     30        S CBK("STARTELEMENT")="STARTELE^C0CMCCD" ; ONLY THIS ONE IS CHANGED ;GPL
     31        S CBK("ENDELEMENT")="ENDELE^MXMLDOM"
     32        S CBK("COMMENT")="COMMENT^MXMLDOM"
     33        S CBK("CHARACTERS")="CHAR^MXMLDOM"
     34        S CBK("ENDDOCUMENT")="ENDDOC^MXMLDOM"
     35        S CBK("ERROR")="ERROR^MXMLDOM"
     36        S (SUCCESS,LEVEL,LEVEL(0),NODE)=0,OPTION=$G(OPTION,"V1")
     37        D EN^MXMLPRSE(DOC,.CBK,OPTION)
     38        D:'SUCCESS DELETE^MXMLDOM(HANDLE)
     39        Q $S(SUCCESS:HANDLE,1:0)
     40        ; Start element
     41        ; Create new child node and push info on stack
     42STARTELE(ELE,ATTR)      ; COPIED FROM STARTELE^MXMLDOM AND MODIFIED TO TREAT
     43        ; ATTRIBUTES AS SUBELEMENTS TO MAKE CCD XPATH PROCESSING EASIER
     44        N PARENT
     45        S PARENT=LEVEL(LEVEL),NODE=NODE+1
     46        S:PARENT ^TMP("MXMLDOM",$J,HANDLE,PARENT,"C",NODE)=ELE
     47        S LEVEL=LEVEL+1,LEVEL(LEVEL)=NODE,LEVEL(LEVEL,0)=ELE
     48        S ^TMP("MXMLDOM",$J,HANDLE,NODE)=ELE,^(NODE,"P")=PARENT
     49        ;M ^("A")=ATTR
     50        N ZI S ZI="" ; INDEX FOR ATTR
     51        F  S ZI=$O(ATTR(ZI)) Q:ZI=""  D  ; FOR EACH ATTRIBUTE
     52        . N ELE,TXT ; ABOUT TO RECURSE
     53        . S ELE=ZI ; TAG
     54        . S TXT=ATTR(ZI) ; DATA
     55        . D STARTELE(ELE,"") ; CREATE A NEW SUBNODE
     56        . D TXT^MXMLDOM("T") ; INSERT DATA TO TAG
     57        . D ENDELE^MXMLDOM(ELE) ; POP BACK UP A LEVEL
     58        Q
     59        ;
     60ISMULT(ZOID)    ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
     61        N ZN
     62        ;I $$TAG(ZOID)["entry" B
     63        S ZN=$$NXTSIB(ZOID)
     64        I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
     65        Q 0
     66        ;
     67FIRST(ZOID)     ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
     68        Q $$CHILD^MXMLDOM(C0CDOCID,ZOID)
     69        ;
     70PARENT(ZOID)    ;RETURNS THE OID OF THE PARENT OF ZOID
     71        Q $$PARENT^MXMLDOM(C0CDOCID,ZOID)
     72        ;
     73ATT(RTN,NODE)   ;GET ATTRIBUTES FOR ZOID
     74        S HANDLE=C0CDOCID
     75        K @RTN
     76        D GETTXT^MXMLDOM("A")
     77        Q
     78        ;
     79TAG(ZOID)       ; RETURNS THE XML TAG FOR THE NODE
     80        ;I ZOID=149 B ;GPLTEST
     81        N X,Y
     82        S Y=""
     83        S X=$G(C0CCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
     84        I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
     85        I Y="" S Y=$$NAME^MXMLDOM(C0CDOCID,ZOID)
     86        Q Y
     87        ;
     88NXTSIB(ZOID)    ; RETURNS THE NEXT SIBLING
     89        Q $$SIBLING^MXMLDOM(C0CDOCID,ZOID)
     90        ;
     91DATA(ZT,ZOID)   ; RETURNS DATA FOR THE NODE
     92        ;N ZT,ZN S ZT=""
     93        ;S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
     94        ;Q $G(@C0CDOM@(ZOID,"T",1))
     95        S ZN=$$TEXT^MXMLDOM(C0CDOCID,ZOID,ZT)
     96        Q
     97        ;
     98CLEANARY(OUTARY,INARY)  ; GOES THROUGH AN ARRAY AND CALLS CLEAN ON EACH NODE
     99        ; INARY AND OUTARY PASSED BY NAME
     100        N ZI S ZI=""
     101        F  S ZI=$O(@INARY@(ZI)) Q:ZI=""  D  ; FOR EACH NODE
     102        . S @OUTARY@(ZI)=$$CLEAN(@INARY@(ZI)) ; CLEAN THE NODE
     103        Q
     104        ;
     105CLEAN(STR)      ; extrinsic function; returns string
     106        ;; Removes all non printable characters from a string.
     107        ;; STR by Value
     108        N TR,I
     109        F I=0:1:31 S TR=$G(TR)_$C(I)
     110        S TR=TR_$C(127)
     111        QUIT $TR(STR,TR)
     112        ;
     113STRIPTXT(OUTARY,ZARY)   ; STRIPS THE "TEXT" PORTION OUT OF AN XML FILE
     114        ; THIS IS USED TO DELETE THE NARATIVE HTML OUT OF THE CCD XML FILES BECAUSE
     115        ; THEY DO NOT WORK RIGHT WITH THE PARSER
     116        ;N ZWRK,ZBLD,ZI ; WORK ARRAY,BUILD ARRAY, AND COUNTER
     117        S ZI=$O(@ZARY@("")) ; GET FIRST LINE NUMBER
     118        D C0CBEGIN("ZWRK",ZI) ; INSERT FIRST LINE IN WORK ARRAY
     119        F  S ZI=$O(@ZARY@(ZI)) Q:ZI=""  D  ; FOR EACH LINE OF THE ARRAY
     120        . I $O(@ZARY@(ZI))="" D  Q  ; AT THE END
     121        . . D C0CEND("ZWRK",ZI) ; INCLUDE LAST LINE IN WORK ARRAY
     122        . I ZI=1 D C0CBEGIN("ZWRK",ZI) ; START WITH FIRST LINE
     123        . I @ZARY@(ZI)["<text" D C0CEND("ZWRK",ZI-1) ;PREV LINE IS AN END
     124        . I @ZARY@(ZI)["</text>" D C0CBEGIN("ZWRK",ZI+1) ;NEXT LINE IS A BEGIN
     125        S ZI=""
     126        F  S ZI=$O(ZWRK(ZI)) Q:ZI=""  D  ; MAKE A BUILD LIST FROM THE WORK ARRAY
     127        . D QUEUE^C0CXPATH("ZBLD",ZARY,$P(ZWRK(ZI),"^",1),$P(ZWRK(ZI),"^",2))
     128        D BUILD^C0CXPATH("ZBLD",OUTARY) ; BUILD NEW ARRAY WITHOUT TEXT SECTIONS
     129        K @OUTARY@(0) ; GET RID OF THE LINE COUNT
     130        Q
     131        ;
     132C0CBEGIN(ZA,LN) ; INSERTS A BEGIN LINE LN INTO ARRAY ZWRK, PASSED BY NAME
     133        N ZI
     134        S ZI=$O(@ZA@(""),-1)
     135        I ZI="" S ZI=1
     136        E  S ZI=ZI+1 ; INCREMENT COUNT IN WORK ARRAY
     137        S $P(@ZA@(ZI),"^",1)=LN
     138        Q
     139        ;
     140C0CEND(ZB,LN)   ; INSERTS AN END LINE LN INTO ARRAY ZWRK, PASSED BY NAME
     141        N ZI
     142        S ZI=$O(@ZB@(""),-1)
     143        I ZI="" S ZI=1
     144        S $P(@ZB@(ZI),"^",2)=LN
     145        Q
     146        ;
     147SEPARATE(OUTARY,INARY)  ; SEPARATES XPATH VARIABLES ACCORDING TO THEIR
     148        ; ROOT ; /Problems/etc/etc goes to @OUTARY@("Problems","/Problems/etc/etc")
     149        S ZI=""
     150        F  S ZI=$O(@INARY@(ZI)) Q:ZI=""  D  ; FOR EACH ELEMENT OF THE ARRAY
     151        . I $P(ZI,"//",2)'="" D  ; FOR NON-BODY ENTRIES
     152        . . S ZJ=$P(ZI,"/",4) ; things like From Patient Actor
     153        . E  D  ; FOR BODY PARTS
     154        . . S ZJ=$P(ZI,"/",2) ;
     155        . . I ZJ="" S ZJ=$P(ZI,"/",3) ;
     156        . S @OUTARY@(ZJ,ZI)=$G(@INARY@(ZI)) ;FIX THIS FOR MULTILINE COMMENTS
     157        Q
     158        ;
     159FINDTID ; FIND TEMPLATE IDS IN DOM 1
     160        S C0CDOCID=1
     161        S ZD=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
     162        S ZN=""
     163        S CURSEC=""
     164        S TID=""
     165        F  S ZN=$O(@ZD@(ZN)) Q:ZN=""  D  ;
     166        . I $$TAG(ZN)="root" D  ;
     167        . . I $$TAG($$PARENT(ZN))="templateId" D  ; ONLY LOOKING FOR TEMPLATES
     168        . . . S ZG=$$PARENT($$PARENT(ZN))
     169        . . . S ZG2=$$PARENT(ZG) ;COMPONENT THAT HOLDS THIS SECTION
     170        . . . S CMT=$G(@ZD@(ZG,"X",1))
     171        . . . I CMT="" S CMT="?"
     172        . . . I $$TAG(ZG)="section" D  ;START OF A SECTION
     173        . . . . S CURSEC=$$PARENT(ZG)
     174        . . . . S SECCMT=$G(@ZD@(CURSEC,"X",1))
     175        . . . . I SECCMT="" S SECCMT="?"
     176        . . . . S SECTID=$G(@ZD@(ZN,"T",1)) ;SECTION TEMPLATE ID
     177        . . . S TID=$G(@ZD@(ZN,"T",1)) ;TEMPLATE ID
     178        . . . I CURSEC'="" D  ; IF WE ARE IN A SECTION
     179        . . . . S CCDDIR(ZG2,CURSEC,$$TAG(ZG2),CMT,SECCMT)=TID
     180        . . . . S DOMMAP(ZG2)=CURSEC_U_$$TAG(ZG2)_U_TID_U_SECTID
     181        . . . W !,$$TAG(ZG2)," ",$G(@ZD@(ZG,"X",1))
     182        . . . W " root ",ZN," ",@ZD@(ZN,"T",1)
     183        Q
     184        ;
     185FINDALT ; PROCESS THE DOMMAP AND FIND THE ALT TAGS FOR COMPONENTS
     186        ;
     187        S ZI=""
     188        F  S ZI=$O(DOMMAP(ZI)) Q:ZI=""  D  ; FOR EACH NODE IN THE MAP
     189        . S ZJ=DOMMAP(ZI) ;
     190        . S PARNODE=$P(ZJ,U,1) ;PARENT NODE
     191        . S TAG=$P(ZJ,U,2) ;THIS TAG
     192        . S TID=$P(ZJ,U,3) ;THIS TEMPLATE ID
     193        . S PARTID=$P(ZJ,U,4) ;PARENT TEMPLATE ID
     194        . S ZIEN=$O(^C0CXDS(178.101,"TID",TID,"")) ;THIS NODE IEN
     195        . S PARIEN=$O(^C0CXDS(178.101,"TID",PARTID,"")) ;PARENT NODE IEN
     196        . I ZI=PARNODE D  ; IF THIS IS A SECTION NODE
     197        . . S ALTTAG=$$GET1^DIQ(178.101,PARIEN_",",.03) ;ALT TAG FIELD FOR PARENT
     198        . . S NAME=$$GET1^DIQ(178.101,ZIEN_",",.01) ;NAME OF THIS NODE'S TEMPLATE
     199        . . W ZI," ",TAG," ",ALTTAG," ",NAME,!
     200        . . S C0CTAGS(ZI)=ALTTAG
     201        . E  D  ; NOT A SECTION NODE
     202        . . N ZJ S ZJ=""
     203        . . S ZJ=$O(^C0CXDS(178.101,"D",PARIEN,ZIEN,"")) ;A WHEREUSED POINTER?
     204        . . I ZJ'="" D  ; THERE IS A NEW LABEL FOR THIS NODE
     205        . . . N ZK
     206        . . . S ZK=$$GET1^DIQ(178.111,ZJ_","_ZIEN_",",2)
     207        . . . I ZK'="" D  ;
     208        . . . . W "FOUND ",ZK,!
     209        . . . . S C0CTAGS(ZI)=ZK ; NEW TAG FOR INTERSECTION
     210        Q
     211        ;
     212ALTTAG(NODE)    ; SET Y EQUAL TO THE ALT TAG FOUND IN C0CTAGS IF NODE IF FOUND
     213        ;
     214        S Y=$G(C0CTAGS(NODE))
     215        Q
     216        ;
     217SETCBK  ; SET THE TAG CALLBACK FOR XPATH PROCESSSING OF THE CCD
     218        S C0CCBK("TAG")="D ALTTAG^C0CMCCD(ZOID)"
     219        Q
     220        ;
     221OUTCCD(GARYIN)  ; OUTPUT THE PARSED CCD TO A TEXT FILE
     222        ;D TEST3^C0CMXML
     223        N ZT S ZT=$NA(^TMP("CCDOUT",$J))
     224        N ZI,ZJ
     225        S ZI=1 S ZJ=""
     226        K @ZT
     227        F  S ZJ=$O(GARYIN(ZJ)) Q:ZJ=""  D  ;
     228        . S @ZT@(ZI)=ZJ_"^"_GARYIN(ZJ)
     229        . S ZI=ZI+1
     230        S ONAME=$NA(@ZT@(1))
     231        W $$OUTPUT^C0CXPATH(ONAME,"CCDOUT.txt","/home/vademo2/CCR")
     232        K @ZT
     233        Q
     234        ;
     235GENXDS(ZD)      ; GENERATE THE XDS PROTOTYPE RECORDS FROM A CCDDIR ARRAY
     236        ; ARRAY ELEMENTS LOOK LIKE:
     237        ; CCDDIR(1659,1634,"observation"," Result observaion template "," Vital signs section template ")="2.16.840.1.113883.10.20.1.31"
     238        ;or CCDDIR(cur node,section node,cur tag,cur name,sec name)=templateId
     239        S ZF=178.101 ; FILE NUMBER FOR THE C0C XDS PROTOTYPE FILE
     240        S ZI=$Q(@ZD@("")) ;FIRST ARRAY ELEMENT
     241        S DONE=0
     242        F  Q:DONE  D  ;
     243        . W @ZI,!
     244        . S ZJ=$QS(ZI,5)
     245        . S ZJ=$E(ZJ,2,$L(ZJ)) ;STRIP THE LEADING SPACE
     246        . S C0CFDA(ZF,"?+1,",.01)=ZJ
     247        . S C0CFDA(ZF,"?+1,",.02)=$QS(ZI,4) ; TAG FOR THIS TEMPLATE
     248        . S C0CFDA(ZF,"?+1,",1)=@ZI
     249        . D UPDIE
     250        . S ZI=$Q(@ZI)
     251        . I ZI="" S DONE=1
     252        Q
     253        ;
     254WHRUSD(ZD)      ; UPDATE THE C0C XDS FILE WITH WHERE USED DATA FROM
     255        ; CCDDIR PASS BY NAME
     256        ; ARRAY ELEMENTS LOOK LIKE:
     257        ; CCDDIR(1634," Vital signs section template ",1659,"observation"," Result observaion template ")="2.16.840.1.113883.10.20.1.31"
     258        ;or CCDDIR(section node,sec name, cur node,cur tag,cur name)=templateId
     259        S ZF=178.101 ; FILE NUMBER FOR THE C0C XDS PROTOTYPE FILE
     260        S ZSF=178.111 ; WHERE USED SUBFILE OF C0C XDS PROTOTYPE FILE
     261        S ZI=$Q(@ZD@("")) ;FIRST ARRAY ELEMENT
     262        S DONE=0
     263        F  Q:DONE  D  ;
     264        . W @ZI
     265        . S ZIEN=$O(^C0CXDS(178.101,"TID",@ZI,"")) ; IEN FOR THIS NODE'S TEMPLATE
     266        . W " IEN:",ZIEN
     267        . S ZJ=$QS(ZI,2)
     268        . S ZJ=$E(ZJ,2,$L(ZJ)) ;STRIP THE LEADING SPACE
     269        . S ZPIEN=$O(^C0CXDS(178.101,"B",ZJ,"")) ; PARENT IEN
     270        . W " PARENT IEN:",ZPIEN
     271        . S ZTAG=$QS(ZI,4) ; TAG FOR THIS TEMPLATE
     272        . W " TAG:",ZTAG,!
     273        . I ZIEN'=ZPIEN D  ; ONLY FOR CHILD TEMPLATES
     274        . . S C0CFDA(ZSF,"?+1,"_ZIEN_",",.01)=ZPIEN ; NEW SUBFILE ENTRY WITH PAR PTR
     275        . . S C0CFDA(ZSF,"?+1,"_ZIEN_",",1)=ZTAG ; TAG FOR NEW ENTRY
     276        . . D UPDIE
     277        . ;S C0CFDA(ZF,"?+1,",1)=@ZI
     278        . ;D UPDIE
     279        . S ZI=$Q(@ZI)
     280        . I ZI="" S DONE=1
     281        Q
     282        ;
    283283UPDIE   ; INTERNAL ROUTINE TO CALL UPDATE^DIE AND CHECK FOR ERRORS
    284  K ZERR
    285  D CLEAN^DILF
    286  D UPDATE^DIE("","C0CFDA","","ZERR")
    287  I $D(ZERR) D  ;
    288  . W "ERROR",!
    289  . ZWR ZERR
    290  . B
    291  K C0CFDA
    292  Q
    293  ;
     284        K ZERR
     285        D CLEAN^DILF
     286        D UPDATE^DIE("","C0CFDA","","ZERR")
     287        I $D(ZERR) D  ;
     288        . W "ERROR",!
     289        . ZWR ZERR
     290        . B
     291        K C0CFDA
     292        Q
     293        ;
  • ccr/branches/ohum/p/C0CMED.m

    r1332 r1333  
    11C0CMED  ; WV/CCDCCR/GPL/SMH - CCR/CCD Medications Driver; Mar 23 2009
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ; Copyright 2008,2009 George Lilly, University of Minnesota and Sam Habiel.
    44        ; Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CMED1.m

    r1332 r1333  
    11C0CMED1 ; WV/CCDCCR/SMH - CCR/CCD PROCESSING FOR MEDICATIONS ;01/10/09
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;;Last modified Sat Jan 10 21:42:27 PST 2009
    44        ; Copyright 2009 WorldVistA.  Licensed under the terms of the GNU
     
    5656        ; @(0) contains the number of meds or -1^NO DATA FOUND
    5757        ; If it is -1, we quit.
    58         I $P(MEDS(0),U)=-1 S @OUTXML@(0)=0 QUIT
     58        I $P(MEDS(0),U)=-1 S @OUTXML@(0)=0 Q
    5959        ZWRITE:$G(DEBUG) MEDS
    6060        N RXIEN S RXIEN=0
    61         F  S RXIEN=$O(MEDS(RXIEN)) Q:RXIEN=""  D  ; FOR EACH MEDICATION IN THE LIST
     61        F  S RXIEN=$O(MEDS(RXIEN)) Q:$G(RXIEN)=""  D  ; FOR EACH MEDICATION IN THE LIST
    6262        . N MED M MED=MEDS(RXIEN)
    6363        . I 'ALL,ACTIVE,$P(MED(100),U,2)'="ACTIVE" QUIT
  • ccr/branches/ohum/p/C0CMED2.m

    r1332 r1333  
    11C0CMED2 ; WV/CCDCCR/SMH - CCR/CCD Meds - Pending for Vista
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;;Last Modified Sat Jan 10 21:41:14 PST 2009
    44        ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
  • ccr/branches/ohum/p/C0CMED3.m

    r1332 r1333  
    11C0CMED3 ; WV/CCDCCR/SMH - Meds: Non-VA/Outside Meds for Vista
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;;Last Modified: Sun Jan 11 05:45:03 UTC 2009
    44        ; Copyright 2009 WorldVistA.  Licensed under the terms of the GNU
  • ccr/branches/ohum/p/C0CMED4.m

    r1332 r1333  
    1 C0CMED4         ; WV/CCDCCR/SMH - CCR/CCD PROCESSING FOR MEDICATIONS - Inpatient Meds/Unit Dose ;10/13/08
    2  ;;0.1;CCDCCR;;;
    3  ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
    4  ; General Public License See attached copy of the License.
    5  ;
    6  ; This program is free software; you can redistribute it and/or modify
    7  ; it under the terms of the GNU General Public License as published by
    8  ; the Free Software Foundation; either version 2 of the License, or
    9  ; (at your option) any later version.
    10  ;
    11  ; This program is distributed in the hope that it will be useful,
    12  ; but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ; GNU General Public License for more details.
    15  ;
    16  ; You should have received a copy of the GNU General Public License along
    17  ; with this program; if not, write to the Free Software Foundation, Inc.,
    18  ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  W "NO ENTRY FROM TOP",!
    21  Q
    22  ;
    23 EXTRACT(MINXML,DFN,OUTXML)           ; EXTRACT MEDICATIONS INTO PROVIDED XML TEMPLATE
    24  ;
    25  ; MINXML is the Input XML Template, passed by name
    26  ; DFN is Patient IEN
    27  ; OUTXML is the resultant XML.
    28  ;
    29  ; MEDS is return array from API.
    30  ; MED is holds each array element from MEDS, one medicine
    31  ; MAP is a mapping variable map (store result) for each med
    32  ;
    33  ; Inpatient Meds will be extracted using this routine and and the one following.
    34  ; Inpatient Meds Unit Dose is going to be C0CMED4
    35  ; Inpatient Meds IVs is going to be C0CMED5
    36  ;
    37  ; We will use two Pharmacy ReEnginnering API's:
    38  ; PSS431^PSS55(DFN,PO,PSDATE,PEDATE,LIST) - provides most info
    39  ; PSS432^PSS55(DFN,PO,LIST) - provides schedule info
    40  ; For more information, see the PRE documentation at:
    41  ; http://www.va.gov/vdl/documents/Clinical/Pharm-Inpatient_Med/phar_1_api_r0807.pdf
    42  ;
    43  ; Med data is stored in Unit Dose multiple of file 55, pharmacy patient
    44  ;
    45  N MEDS,MAP
    46  K ^TMP($J)
    47  D PSS431^PSS55(DFN,,,,"UD") ; Output is in ^TMP($J,"UD",*)
    48  I ^TMP($J,"UD",0)'>0 S @OUTXML@(0)=0 QUIT  ; No Meds - Quit
    49  ; Otherwise, we go on...
    50  M MEDS=^TMP($J,"UD")
    51  I DEBUG ZWR MEDS
    52  S MEDMAP=$NA(^TMP("GPLCCR",$J,"MEDMAP"))
    53  N MEDCOUNT S MEDCOUNT=@MEDMAP@(0) ; We already have meds in the array
    54  N I S I=0
    55  F  S I=$O(MEDS("B",I)) Q:'I  D  ; For each medication in B index
    56  . N MED M MED=MEDS(I)
    57  . S MEDCOUNT=MEDCOUNT+1
    58  . S @MEDMAP@(0)=MEDCOUNT ; Update MedMap array counter
    59  . S MAP=$NA(^TMP("GPLCCR",$J,"MEDMAP",MEDCOUNT))
    60  . N RXIEN S RXIEN=MED(.01) ; Order Number
    61  . I DEBUG W "RXIEN IS ",RXIEN,!
    62  . I DEBUG W "MAP= ",MAP,!
    63  . S @MAP@("MEDOBJECTID")="MED_INPATIENT_UD"_RXIEN
    64  . S @MAP@("MEDISSUEDATETXT")="Order Date"
    65  . S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($P(MED(27),U),"DT")
    66  . S @MAP@("MEDLASTFILLDATETXT")="" ; For Outpatient
    67  . S @MAP@("MEDLASTFILLDATE")="" ; For Outpatient
    68  . S @MAP@("MEDRXNOTXT")="" ; For Outpatient
    69  . S @MAP@("MEDRXNO")="" ; For Outpatient
    70  . S @MAP@("MEDTYPETEXT")="Medication"
    71  . S @MAP@("MEDDETAILUNADORNED")=""  ; Leave blank, field has its uses
    72  . S @MAP@("MEDSTATUSTEXT")="ACTIVE"
    73  . S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$P(MED(1),U)
    74  . S @MAP@("MEDPRODUCTNAMETEXT")=MED("DDRUG",1,.01)
    75  . ; NDC is field 31 in the drug file.
    76  . ; The actual drug entry in the drug file is not necessarily supplied.
    77  . ; It' node 1, internal form.
    78  . N MEDIEN S MEDIEN=MED(1,"I")
    79  . S @MAP@("MEDPRODUCTNAMECODEVALUE")=$S($L(MEDIEN):$$GET1^DIQ(50,MEDIEN,31,"E"),1:"")
    80  . S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=$S($L(MEDIEN):"NDC",1:"")
    81  . S @MAP@("MEDPRODUCTNAMECODEVERSION")=$S($L(MEDIEN):"none",1:"")
    82  . S @MAP@("MEDBRANDNAMETEXT")=""
    83  . I $L(MEDIEN) D DOSE^PSS50(MEDIEN,,,,,"DOSE")
    84  . I $L(MEDIEN) N DOSEDATA M DOSEDATA=^TMP($J,"DOSE",MEDIEN)
    85  . S @MAP@("MEDSTRENGTHVALUE")=$S($L(MEDIEN):DOSEDATA(901),1:"")
    86  . S @MAP@("MEDSTRENGTHUNIT")=$S($P(DOSEDATA(902),U,2),1:"")
    87  . ; Units, concentration, etc, come from another call
    88  . ; $$CPRS^PSNAPIS which returns dosage-form^va class^strengh^unit
    89  . ; This call takes nodes 1 and 3 of ^PSDRUG(D0,"ND") as parameters
    90  . ; NDF Entry IEN, and VA Product Name
    91  . ; These can be obtained using NDF^PSS50 (IEN,,,,,"SUBSCRIPT")
    92  . ; Documented in the same manual.
    93  . N NDFDATA,CONCDATA
    94  . I $L(MEDIEN) D
    95  . . D NDF^PSS50(MEDIEN,,,,,"CONC")
    96  . . M NDFDATA=^TMP($J,"CONC",MEDIEN)
    97  . . N NDFIEN S NDFIEN=$P(NDFDATA(20),U)
    98  . . N VAPROD S VAPROD=$P(NDFDATA(22),U)
    99  . . ; If a drug was not matched to NDF, then the NDFIEN is gonna be ""
    100  . . ; and this will crash the call. So...
    101  . . I NDFIEN="" S CONCDATA=""
    102  . . E  S CONCDATA=$$CPRS^PSNAPIS(NDFIEN,VAPROD)
    103  . E  S (NDFDATA,CONCDATA)="" ; This line is defensive programming to prevent undef errors.
    104  . S @MAP@("MEDFORMTEXT")=$S($L(MEDIEN):$P(CONCDATA,U,1),1:"")
    105  . S @MAP@("MEDCONCVALUE")=$S($L(MEDIEN):$P(CONCDATA,U,3),1:"")
    106  . S @MAP@("MEDCONCUNIT")=$S($L(MEDIEN):$P(CONCDATA,U,4),1:"")
    107  . S @MAP@("MEDQUANTITYVALUE")=""  ; not provided for in Non-VA meds.
    108  . ; Oddly, there is no easy place to find the dispense unit.
    109  . ; It's not included in the original call, so we have to go to the drug file.
    110  . ; That would be DATA^PSS50(IEN,,,,,"SUBSCRIPT")
    111  . ; Node 14.5 is the Dispense Unit
    112  . I $L(MEDIEN) D
    113  . . D DATA^PSS50(MEDIEN,,,,,"QTY")
    114  . . N QTYDATA M QTYDATA=^TMP($J,"QTY",MEDIEN)
    115  . . S @MAP@("MEDQUANTITYUNIT")=QTYDATA(14.5)
    116    E  S @MAP@("MEDQUANTITYUNIT")=""
    117  . ;
    118  . ; --- START OF DIRECTIONS ---
    119  . ; Dosage is field 2, route is 3, schedule is 4
    120  . ; These are all free text fields, and don't point to any files
    121  . ; For that reason, I will use the field I never used before:
    122  . ; MEDDIRECTIONDESCRIPTIONTEXT
    123  . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONDESCRIPTIONTEXT")=MED(2,"E")_" "_MED(3,"E")_" "_MED(4,"E")
    124  . S @MAP@("M","DIRECTIONS",1,"MEDDOSEINDICATOR")="4"  ; means look in description text. See E2369-05.
    125  . S @MAP@("M","DIRECTIONS",1,"MEDDELIVERYMETHOD")=""
    126  . S @MAP@("M","DIRECTIONS",1,"MEDDOSEVALUE")=""
    127  . S @MAP@("M","DIRECTIONS",1,"MEDDOSEUNIT")=""
    128  . S @MAP@("M","DIRECTIONS",1,"MEDRATEVALUE")="" 
    129  . S @MAP@("M","DIRECTIONS",1,"MEDRATEUNIT")="" 
    130  . S @MAP@("M","DIRECTIONS",1,"MEDVEHICLETEXT")="" 
    131  . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONROUTETEXT")=""
    132  . S @MAP@("M","DIRECTIONS",1,"MEDFREQUENCYVALUE")=""
    133  . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALVALUE")=""
    134  . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALUNIT")=""
    135  . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONVALUE")=""
    136  . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONUNIT")=""
    137  . S @MAP@("M","DIRECTIONS",1,"MEDPRNFLAG")=""
    138  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMOBJECTID")=""
    139  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMTYPETXT")=""
    140  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMDESCRIPTION")=""
    141  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODEVALUE")=""
    142  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGSYSTEM")=""
    143  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGVERSION")=""
    144  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMSOURCEACTORID")=""
    145  . S @MAP@("M","DIRECTIONS",1,"MEDSTOPINDICATOR")=""
    146  . S @MAP@("M","DIRECTIONS",1,"MEDDIRSEQ")=""
    147  . S @MAP@("M","DIRECTIONS",1,"MEDMULDIRMOD")=""
    148  . ;
    149  . ; --- END OF DIRECTIONS ---
    150  . ;
    151  . ; S @MAP@("MEDPTINSTRUCTIONS","F")="52.41^105"
    152  . S @MAP@("MEDPTINSTRUCTIONS")=MED(10,1) ; WP Field
    153  . S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=MED(14,1) ; WP Field
    154  . S @MAP@("MEDRFNO")=""
    155  . N RESULT S RESULT=$NA(^TMP("GPLCCR",$J,"MAPPED"))
    156  . K @RESULT
    157  . D MAP^GPLXPATH(MINXML,MAP,RESULT)
    158  . ; D PARY^GPLXPATH(RESULT)
    159  . ; MAPPING DIRECTIONS
    160  . N MEDDIR1,DIRXML1 S DIRXML1="MEDDIR1" ; VARIABLE AND NAME VARIABLE TEMPLATE
    161  . N MEDDIR2,DIRXML2 S DIRXML2="MEDDIR2" ; VARIABLE AND NAME VARIABLE RESULT
    162  . D QUERY^GPLXPATH(MINXML,"//Medications/Medication/Directions",DIRXML1)
    163  . D REPLACE^GPLXPATH(RESULT,"","//Medications/Medication/Directions")
    164  . ; N MDZ1,MDZNA
    165  . I DIRCNT>0 D  ; IF THERE ARE DIRCTIONS
    166  . . F MDZ1=1:1:DIRCNT  D  ; FOR EACH DIRECTION
    167  . . . S MDZNA=$NA(@MAP@("M","DIRECTIONS",MDZ1))
    168  . . . D MAP^GPLXPATH(DIRXML1,MDZNA,DIRXML2)
    169  . . . D INSERT^GPLXPATH(RESULT,DIRXML2,"//Medications/Medication")
    170  . D:MEDCOUNT=1 CP^GPLXPATH(RESULT,OUTXML) ; First one is a copy
    171  . D:MEDCOUNT>1 INSINNER^GPLXPATH(OUTXML,RESULT) ; AFTER THE FIRST, INSERT INNER XML
    172  N MEDTMP,MEDI
    173  D MISSING^GPLXPATH(OUTXML,"MEDTMP") ; SEARCH XML FOR MISSING VARS
    174  I MEDTMP(0)>0 D  ; IF THERE ARE MISSING VARS - MARKED AS @@X@@
    175  . W "MEDICATION MISSING ",!
    176  . F MEDI=1:1:MEDTMP(0) W MEDTMP(MEDI),!
    177  Q
    178  ;
     1C0CMED4         ; WV/CCDCCR/SMH - CCR/CCD PROCESSING FOR MEDICATIONS - Inpatient Meds/Unit Dose ;10/13/08
     2        ;;0.1;CCDCCR;;;Build 1
     3        ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
     4        ; General Public License See attached copy of the License.
     5        ;
     6        ; This program is free software; you can redistribute it and/or modify
     7        ; it under the terms of the GNU General Public License as published by
     8        ; the Free Software Foundation; either version 2 of the License, or
     9        ; (at your option) any later version.
     10        ;
     11        ; This program is distributed in the hope that it will be useful,
     12        ; but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ; GNU General Public License for more details.
     15        ;
     16        ; You should have received a copy of the GNU General Public License along
     17        ; with this program; if not, write to the Free Software Foundation, Inc.,
     18        ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        W "NO ENTRY FROM TOP",!
     21        Q
     22        ;
     23EXTRACT(MINXML,DFN,OUTXML)                ; EXTRACT MEDICATIONS INTO PROVIDED XML TEMPLATE
     24        ;
     25        ; MINXML is the Input XML Template, passed by name
     26        ; DFN is Patient IEN
     27        ; OUTXML is the resultant XML.
     28        ;
     29        ; MEDS is return array from API.
     30        ; MED is holds each array element from MEDS, one medicine
     31        ; MAP is a mapping variable map (store result) for each med
     32        ;
     33        ; Inpatient Meds will be extracted using this routine and and the one following.
     34        ; Inpatient Meds Unit Dose is going to be C0CMED4
     35        ; Inpatient Meds IVs is going to be C0CMED5
     36        ;
     37        ; We will use two Pharmacy ReEnginnering API's:
     38        ; PSS431^PSS55(DFN,PO,PSDATE,PEDATE,LIST) - provides most info
     39        ; PSS432^PSS55(DFN,PO,LIST) - provides schedule info
     40        ; For more information, see the PRE documentation at:
     41        ; http://www.va.gov/vdl/documents/Clinical/Pharm-Inpatient_Med/phar_1_api_r0807.pdf
     42        ;
     43        ; Med data is stored in Unit Dose multiple of file 55, pharmacy patient
     44        ;
     45        N MEDS,MAP
     46        K ^TMP($J)
     47        D PSS431^PSS55(DFN,,,,"UD") ; Output is in ^TMP($J,"UD",*)
     48        I ^TMP($J,"UD",0)'>0 S @OUTXML@(0)=0 QUIT  ; No Meds - Quit
     49        ; Otherwise, we go on...
     50        M MEDS=^TMP($J,"UD")
     51        I DEBUG ZWR MEDS
     52        S MEDMAP=$NA(^TMP("GPLCCR",$J,"MEDMAP"))
     53        N MEDCOUNT S MEDCOUNT=@MEDMAP@(0) ; We already have meds in the array
     54        N I S I=0
     55        F  S I=$O(MEDS("B",I)) Q:'I  D  ; For each medication in B index
     56        . N MED M MED=MEDS(I)
     57        . S MEDCOUNT=MEDCOUNT+1
     58        . S @MEDMAP@(0)=MEDCOUNT ; Update MedMap array counter
     59        . S MAP=$NA(^TMP("GPLCCR",$J,"MEDMAP",MEDCOUNT))
     60        . N RXIEN S RXIEN=MED(.01) ; Order Number
     61        . I DEBUG W "RXIEN IS ",RXIEN,!
     62        . I DEBUG W "MAP= ",MAP,!
     63        . S @MAP@("MEDOBJECTID")="MED_INPATIENT_UD"_RXIEN
     64        . S @MAP@("MEDISSUEDATETXT")="Order Date"
     65        . S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($P(MED(27),U),"DT")
     66        . S @MAP@("MEDLASTFILLDATETXT")="" ; For Outpatient
     67        . S @MAP@("MEDLASTFILLDATE")="" ; For Outpatient
     68        . S @MAP@("MEDRXNOTXT")="" ; For Outpatient
     69        . S @MAP@("MEDRXNO")="" ; For Outpatient
     70        . S @MAP@("MEDTYPETEXT")="Medication"
     71        . S @MAP@("MEDDETAILUNADORNED")=""  ; Leave blank, field has its uses
     72        . S @MAP@("MEDSTATUSTEXT")="ACTIVE"
     73        . S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$P(MED(1),U)
     74        . S @MAP@("MEDPRODUCTNAMETEXT")=MED("DDRUG",1,.01)
     75        . ; NDC is field 31 in the drug file.
     76        . ; The actual drug entry in the drug file is not necessarily supplied.
     77        . ; It' node 1, internal form.
     78        . N MEDIEN S MEDIEN=MED(1,"I")
     79        . S @MAP@("MEDPRODUCTNAMECODEVALUE")=$S($L(MEDIEN):$$GET1^DIQ(50,MEDIEN,31,"E"),1:"")
     80        . S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=$S($L(MEDIEN):"NDC",1:"")
     81        . S @MAP@("MEDPRODUCTNAMECODEVERSION")=$S($L(MEDIEN):"none",1:"")
     82        . S @MAP@("MEDBRANDNAMETEXT")=""
     83        . I $L(MEDIEN) D DOSE^PSS50(MEDIEN,,,,,"DOSE")
     84        . I $L(MEDIEN) N DOSEDATA M DOSEDATA=^TMP($J,"DOSE",MEDIEN)
     85        . S @MAP@("MEDSTRENGTHVALUE")=$S($L(MEDIEN):DOSEDATA(901),1:"")
     86        . S @MAP@("MEDSTRENGTHUNIT")=$S($P(DOSEDATA(902),U,2),1:"")
     87        . ; Units, concentration, etc, come from another call
     88        . ; $$CPRS^PSNAPIS which returns dosage-form^va class^strengh^unit
     89        . ; This call takes nodes 1 and 3 of ^PSDRUG(D0,"ND") as parameters
     90        . ; NDF Entry IEN, and VA Product Name
     91        . ; These can be obtained using NDF^PSS50 (IEN,,,,,"SUBSCRIPT")
     92        . ; Documented in the same manual.
     93        . N NDFDATA,CONCDATA
     94        . I $L(MEDIEN) D
     95        . . D NDF^PSS50(MEDIEN,,,,,"CONC")
     96        . . M NDFDATA=^TMP($J,"CONC",MEDIEN)
     97        . . N NDFIEN S NDFIEN=$P(NDFDATA(20),U)
     98        . . N VAPROD S VAPROD=$P(NDFDATA(22),U)
     99        . . ; If a drug was not matched to NDF, then the NDFIEN is gonna be ""
     100        . . ; and this will crash the call. So...
     101        . . I NDFIEN="" S CONCDATA=""
     102        . . E  S CONCDATA=$$CPRS^PSNAPIS(NDFIEN,VAPROD)
     103        . E  S (NDFDATA,CONCDATA)="" ; This line is defensive programming to prevent undef errors.
     104        . S @MAP@("MEDFORMTEXT")=$S($L(MEDIEN):$P(CONCDATA,U,1),1:"")
     105        . S @MAP@("MEDCONCVALUE")=$S($L(MEDIEN):$P(CONCDATA,U,3),1:"")
     106        . S @MAP@("MEDCONCUNIT")=$S($L(MEDIEN):$P(CONCDATA,U,4),1:"")
     107        . S @MAP@("MEDQUANTITYVALUE")=""  ; not provided for in Non-VA meds.
     108        . ; Oddly, there is no easy place to find the dispense unit.
     109        . ; It's not included in the original call, so we have to go to the drug file.
     110        . ; That would be DATA^PSS50(IEN,,,,,"SUBSCRIPT")
     111        . ; Node 14.5 is the Dispense Unit
     112        . I $L(MEDIEN) D
     113        . . D DATA^PSS50(MEDIEN,,,,,"QTY")
     114        . . N QTYDATA M QTYDATA=^TMP($J,"QTY",MEDIEN)
     115        . . S @MAP@("MEDQUANTITYUNIT")=QTYDATA(14.5)
     116          E  S @MAP@("MEDQUANTITYUNIT")=""
     117        . ;
     118        . ; --- START OF DIRECTIONS ---
     119        . ; Dosage is field 2, route is 3, schedule is 4
     120        . ; These are all free text fields, and don't point to any files
     121        . ; For that reason, I will use the field I never used before:
     122        . ; MEDDIRECTIONDESCRIPTIONTEXT
     123        . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONDESCRIPTIONTEXT")=MED(2,"E")_" "_MED(3,"E")_" "_MED(4,"E")
     124        . S @MAP@("M","DIRECTIONS",1,"MEDDOSEINDICATOR")="4"  ; means look in description text. See E2369-05.
     125        . S @MAP@("M","DIRECTIONS",1,"MEDDELIVERYMETHOD")=""
     126        . S @MAP@("M","DIRECTIONS",1,"MEDDOSEVALUE")=""
     127        . S @MAP@("M","DIRECTIONS",1,"MEDDOSEUNIT")=""
     128        . S @MAP@("M","DIRECTIONS",1,"MEDRATEVALUE")="" 
     129        . S @MAP@("M","DIRECTIONS",1,"MEDRATEUNIT")="" 
     130        . S @MAP@("M","DIRECTIONS",1,"MEDVEHICLETEXT")="" 
     131        . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONROUTETEXT")=""
     132        . S @MAP@("M","DIRECTIONS",1,"MEDFREQUENCYVALUE")=""
     133        . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALVALUE")=""
     134        . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALUNIT")=""
     135        . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONVALUE")=""
     136        . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONUNIT")=""
     137        . S @MAP@("M","DIRECTIONS",1,"MEDPRNFLAG")=""
     138        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMOBJECTID")=""
     139        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMTYPETXT")=""
     140        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMDESCRIPTION")=""
     141        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODEVALUE")=""
     142        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGSYSTEM")=""
     143        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGVERSION")=""
     144        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMSOURCEACTORID")=""
     145        . S @MAP@("M","DIRECTIONS",1,"MEDSTOPINDICATOR")=""
     146        . S @MAP@("M","DIRECTIONS",1,"MEDDIRSEQ")=""
     147        . S @MAP@("M","DIRECTIONS",1,"MEDMULDIRMOD")=""
     148        . ;
     149        . ; --- END OF DIRECTIONS ---
     150        . ;
     151        . ; S @MAP@("MEDPTINSTRUCTIONS","F")="52.41^105"
     152        . S @MAP@("MEDPTINSTRUCTIONS")=MED(10,1) ; WP Field
     153        . S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=MED(14,1) ; WP Field
     154        . S @MAP@("MEDRFNO")=""
     155        . N RESULT S RESULT=$NA(^TMP("GPLCCR",$J,"MAPPED"))
     156        . K @RESULT
     157        . D MAP^GPLXPATH(MINXML,MAP,RESULT)
     158        . ; D PARY^GPLXPATH(RESULT)
     159        . ; MAPPING DIRECTIONS
     160        . N MEDDIR1,DIRXML1 S DIRXML1="MEDDIR1" ; VARIABLE AND NAME VARIABLE TEMPLATE
     161        . N MEDDIR2,DIRXML2 S DIRXML2="MEDDIR2" ; VARIABLE AND NAME VARIABLE RESULT
     162        . D QUERY^GPLXPATH(MINXML,"//Medications/Medication/Directions",DIRXML1)
     163        . D REPLACE^GPLXPATH(RESULT,"","//Medications/Medication/Directions")
     164        . ; N MDZ1,MDZNA
     165        . I DIRCNT>0 D  ; IF THERE ARE DIRCTIONS
     166        . . F MDZ1=1:1:DIRCNT  D  ; FOR EACH DIRECTION
     167        . . . S MDZNA=$NA(@MAP@("M","DIRECTIONS",MDZ1))
     168        . . . D MAP^GPLXPATH(DIRXML1,MDZNA,DIRXML2)
     169        . . . D INSERT^GPLXPATH(RESULT,DIRXML2,"//Medications/Medication")
     170        . D:MEDCOUNT=1 CP^GPLXPATH(RESULT,OUTXML) ; First one is a copy
     171        . D:MEDCOUNT>1 INSINNER^GPLXPATH(OUTXML,RESULT) ; AFTER THE FIRST, INSERT INNER XML
     172        N MEDTMP,MEDI
     173        D MISSING^GPLXPATH(OUTXML,"MEDTMP") ; SEARCH XML FOR MISSING VARS
     174        I MEDTMP(0)>0 D  ; IF THERE ARE MISSING VARS - MARKED AS @@X@@
     175        . W "MEDICATION MISSING ",!
     176        . F MEDI=1:1:MEDTMP(0) W MEDTMP(MEDI),!
     177        Q
     178        ;
  • ccr/branches/ohum/p/C0CMED6.m

    r1332 r1333  
    1 C0CMED6 ; WV/CCDCCR/SMH - Meds from RPMS: Outpatient Meds;01/10/09
    2  ;;1.0;C0C;;May 19, 2009;
    3  ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
    4  ; General Public License See attached copy of the License.
    5  ;
    6  ; This program is free software; you can redistribute it and/or modify
    7  ; it under the terms of the GNU General Public License as published by
    8  ; the Free Software Foundation; either version 2 of the License, or
    9  ; (at your option) any later version.
    10  ;
    11  ; This program is distributed in the hope that it will be useful,
    12  ; but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ; GNU General Public License for more details.
    15  ;
    16  ; You should have received a copy of the GNU General Public License along
    17  ; with this program; if not, write to the Free Software Foundation, Inc.,
    18  ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  W "NO ENTRY FROM TOP",!
    21  Q
    22  ;
    23 EXTRACT(MINXML,DFN,OUTXML,MEDCOUNT,FLAGS)  ; EXTRACT MEDICATIONS INTO PROVIDED XML TEMPLATE
    24  ;
    25  ; MINXML and OUTXML are passed by name so globals can be used
    26  ; MINXML will contain only the medications skeleton of the overall template
    27  ; MEDCOUNT is a counter passed by Reference.
    28  ; FLAGS are: MEDALL(bool)^MEDLIMIT(int)^MEDACTIVE(bool)^MEDPENDING(bool)
    29  ; FLAGS are set-up in C0CMED.
    30  ;
    31  ; MEDS is return array from RPC.
    32  ; MAP is a mapping variable map (store result) for each med
    33  ; MED is holds each array element from MEDS(J), one medicine
    34  ; J is a counter.
    35  ;
    36  ; GETRXS^BEHORXFN(ARRAYNAME,DFN,DAYS) will be the the API used.
    37  ; This API has been developed by Medsphere for IHS for getting
    38  ; Medications from RPMS. It has most of what we need.
    39  ; API written by Doug Martin when he worked for Medsphere (thanks Doug!)
    40  ; -- ARRAYNAME is passed by name (required)
    41  ; -- DFN is passed by value (required)
    42  ; -- DAYS is passed by value (optional; if not passed defaults to 365)
    43  ;
    44  ; Return:
    45  ; ~Type^PharmID^Drug^InfRate^StopDt^RefRem^TotDose^UnitDose^OrderID
    46  ; ^Status^LastFill^Chronic^Issued^Rx #^Provider^
    47  ; Status Reason^DEA Handling
    48  ;
    49  N MEDS,MEDS1,MAP
    50  D GETRXS^BEHORXFN("MEDS1",DFN,$P($P(FLAGS,U,2),"-",2)) ; 2nd piece of FLAGS is # of days to retrieve, which comes in the form "T-360"
    51  N ALL S ALL=+FLAGS
    52  N ACTIVE S ACTIVE=$P(FLAGS,U,3)
    53  N PENDING S PENDING=$P(FLAGS,U,4)
    54  S @OUTXML@(0)=0  ;By default, no meds
    55  ; If MEDS1 is not defined, then no meds
    56  I '$D(MEDS1) QUIT
    57  I DEBUG ZWR MEDS1,MINXML
    58  N MEDCNT S MEDCNT=0 ; Med Count
    59  ; The next line is a super line. It goes through the array return
    60  ; and if the first characters are ~OP, it grabs the line.
    61  ; This means that line is for a dispensed Outpatient Med.
    62  ; That line has the metadata about the med that I need.
    63  ; The next lines, however many, are the med and the sig.
    64  ; I won't be using those because I have to get the sig parsed exactly.
    65  N J S J="" F  S J=$O(MEDS1(J)) Q:J=""  I $E(MEDS1(J),1,3)="~OP" S MEDCNT=MEDCNT+1 S MEDS(MEDCNT)=MEDS1(J)
    66  K MEDS1
    67  S MEDCNT="" ; Initialize for $Order
    68  F  S MEDCNT=$O(MEDS(MEDCNT)) Q:MEDCNT=""  D  ; for each medication in the list
    69  . I 'ALL,ACTIVE,$P(MEDS(MEDCNT),U,10)'="ACTIVE" QUIT
    70  . I 'ALL,PENDING,$P(MEDS(MEDCNT),U,10)'="PENDING" QUIT
    71  . I DEBUG W "MEDCNT IS ",MEDCNT,!
    72  . S MAP=$NA(^TMP("C0CCCR",$J,"MEDMAP",MEDCNT))
    73  . ; K @MAP DO NOT KILL HERE, WAS CLEARED IN C0CMED
    74  . I DEBUG W "MAP= ",MAP,!
    75  . S @MAP@("MEDOBJECTID")="MED"_MEDCNT ; MEDCNT FOR ID
    76  . S @MAP@("MEDISSUEDATETXT")="Issue Date"
    77  . S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($P(MEDS(MEDCNT),U,15),"DT")
    78  . S @MAP@("MEDLASTFILLDATETXT")="Last Fill Date"
    79  . S @MAP@("MEDLASTFILLDATE")=$$FMDTOUTC^C0CUTIL($P(MEDS(MEDCNT),U,11),"DT")
    80  . S @MAP@("MEDRXNOTXT")="Prescription Number"
    81  . S @MAP@("MEDRXNO")=$P(MEDS(MEDCNT),U,14)
    82  . S @MAP@("MEDTYPETEXT")="Medication"
    83  . S @MAP@("MEDDETAILUNADORNED")=""  ; Leave blank, field has its uses
    84  . S @MAP@("MEDSTATUSTEXT")=$P(MEDS(MEDCNT),U,10)
    85  . ; Provider only provided in API as text, not DUZ.
    86  . ; We need to get DUZ from filman file 52 (Prescription)
    87  . ; Field 4; IEN is Piece 2 of Meds stripped of trailing characters.
    88  . ; Note that I will use RXIEN several times later
    89  . N RXIEN S RXIEN=+$P(MEDS(MEDCNT),U,2)
    90  . S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$$GET1^DIQ(52,RXIEN,4,"I")
    91  . S @MAP@("MEDPRODUCTNAMETEXT")=$P(MEDS(MEDCNT),U,3)
    92  . ; --- RxNorm Stuff
    93  . ; 176.001 is the file for Concepts; 176.003 is the file for
    94  . ; sources (i.e. for RxNorm Version)
    95  . ;
    96  . ; I use 176.001 for the Vista version of this routine (files 1-3)
    97  . ; Since IHS does not have VUID's, I will be getting RxNorm codes
    98  . ; using NDCs. My specially crafted index (sounds evil) named "NDC"
    99  . ; is in file 176.002. The file is called RxNorm NDC to VUID.
    100  . ; Except that I don't need the VUID, but it's there if I need it.
    101  . ;
    102  . ; We obviously need the NDC. That is easily obtained from the prescription.
    103  . ; Field 27 in file 52
    104  . N NDC S NDC=$$GET1^DIQ(52,RXIEN,27,"I")
    105  . ; I discovered that file 176.002 might give you two codes for the NDC
    106  . ; One for the Clinical Drug, and one for the ingredient.
    107  . ; So the plan is to get the two RxNorm codes, and then find from
    108  . ; file 176.001 which one is the Clinical Drug.
    109  . ; ... I refactored this into GETRXN
    110  . N RXNORM,SRCIEN,RXNNAME,RXNVER
    111  . I +NDC,$D(^C0CRXN) D  ; $Data is for Systems that don't have our RxNorm file yet.
    112  . . S RXNORM=$$GETRXN(NDC)
    113  . . S SRCIEN=$$FIND1^DIC(176.003,,,"RXNORM","B")
    114  . . S RXNNAME=$$GET1^DIQ(176.003,SRCIEN,6)
    115  . . S RXNVER=$$GET1^DIQ(176.003,SRCIEN,7)
    116  . ;
    117  . E  S (RXNORM,RXNNAME,RXNVER)=""
    118  . ; End if/else block
    119  . S @MAP@("MEDPRODUCTNAMECODEVALUE")=RXNORM
    120  . S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=RXNNAME
    121  . S @MAP@("MEDPRODUCTNAMECODEVERSION")=RXNVER
    122  . ; --- End RxNorm section
    123  . ;
    124  . ; Brand name is 52 field 6.5
    125  . S @MAP@("MEDBRANDNAMETEXT")=$$GET1^DIQ(52,RXIEN,6.5)
    126  . ;
    127  . ; Next I need Med Form (tab, cap etc), strength (250mg)
    128  . ; concentration for liquids (250mg/mL)
    129  . ; Since IHS does not have any of the new calls that
    130  . ; Vista has, I will be doing a crosswalk:
    131  . ; File 52, field 6 is Drug IEN in file 50
    132  . ; File 50, field 22 is VA Product IEN in file 50.68
    133  . ; In file 50.68, I will get the following:
    134  . ; -- 1: Dosage Form
    135  . ; -- 2: Strength
    136  . ; -- 3: Units
    137  . ; -- 8: Dispense Units
    138  . ; -- Conc is 2 concatenated with 3
    139  . ;
    140  . ; *** If Drug is not matched to NDF, then VA Product will be "" ***
    141  . ;
    142  . N MEDIEN S MEDIEN=$$GET1^DIQ(52,RXIEN,6,"I") ; Drug IEN in 50
    143  . N VAPROD S VAPROD=$$GET1^DIQ(50,MEDIEN,22,"I") ; VA Product in file 50.68
    144  . I +VAPROD D
    145  . . S @MAP@("MEDSTRENGTHVALUE")=$$GET1^DIQ(50.68,VAPROD,2)
    146  . . S @MAP@("MEDSTRENGTHUNIT")=$$GET1^DIQ(50.68,VAPROD,3)
    147  . . S @MAP@("MEDFORMTEXT")=$$GET1^DIQ(50.68,VAPROD,1)
    148  . . S @MAP@("MEDCONCVALUE")=@MAP@("MEDSTRENGTHVALUE")
    149  . . S @MAP@("MEDCONCUNIT")=@MAP@("MEDSTRENGTHUNIT")
    150  . E  D
    151  . . S @MAP@("MEDSTRENGTHVALUE")=""
    152  . . S @MAP@("MEDSTRENGTHUNIT")=""
    153  . . S @MAP@("MEDFORMTEXT")=""
    154  . . S @MAP@("MEDCONCVALUE")=""
    155  . . S @MAP@("MEDCONCUNIT")=""
    156  . ; End Strengh/Conc stuff
    157  . ;
    158  . ; Quantity is in the prescription, field 7
    159  . S @MAP@("MEDQUANTITYVALUE")=$$GET1^DIQ(52,RXIEN,7)
    160  . ; Dispense unit is in the drug file, field 14.5
    161  . S @MAP@("MEDQUANTITYUNIT")=$$GET1^DIQ(50,MEDIEN,14.5)
    162  . ;
    163  . ; --- START OF DIRECTIONS ---
    164  . ; Sig data not in any API :-(  Oh yes, you can get the whole thing, but...
    165  . ; we want the components.
    166  . ; It's in multiple 113 in the Prescription File (52)
    167  . ; #.01 DOSAGE ORDERED [1F]                   "20"
    168  . ; #1 DISPENSE UNITS PER DOSE [2N]    "1"
    169  . ; #2 UNITS [3P:50.607]                               "MG"
    170  . ; #3 NOUN [4F]                                               "TABLET"
    171  . ; #4 DURATION [5F]                                   "10D"
    172  . ; #5 CONJUNCTION [6S]                                "AND"
    173  . ; #6 ROUTE [7P:51.2]                                 "ORAL"
    174  . ; #7 SCHEDULE [8F]                                   "BID"
    175  . ; #8 VERB [9F]                                               "TAKE"
    176  . ;
    177  . ; Will use GETS^DIQ to get fields.
    178  . ; Data comes out like this:
    179  . ; SAMINS(52.0113,"1,23,",.01)=20
    180  . ; SAMINS(52.0113,"1,23,",1)=1
    181  . ; SAMINS(52.0113,"1,23,",2)="MG"
    182  . ; SAMINS(52.0113,"1,23,",3)="TABLET"
    183  . ; SAMINS(52.0113,"1,23,",4)="5D"
    184  . ; SAMINS(52.0113,"1,23,",5)="THEN"
    185  . ;
    186  . N RAWDATA
    187  . D GETS^DIQ(52,RXIEN,"113*",,"RAWDATA","DIERR")
    188  . D:$D(DIERR) ^%ZTER  ; Log if there's an error in retrieving sig field
    189  . ; none the less, continue; some parts are retrievable.
    190  . N FMSIG M FMSIG=RAWDATA(52.0113) ; Merge into subfile...
    191  . K RAWDATA
    192  . N FMSIGNUM S FMSIGNUM="" ; Sigline number in fileman.
    193  . ; FMSIGNUM gets outputted as "IEN,RXIEN,".
    194  . ; DIRCNT is the proper Sigline numer.
    195  . ; SIGDATA is the simplfied array.
    196  . F  S FMSIGNUM=$O(FMSIG(FMSIGNUM)) Q:FMSIGNUM=""  D
    197  . . N DIRCNT S DIRCNT=$P(FMSIGNUM,",")
    198  . . N SIGDATA M SIGDATA=FMSIG(FMSIGNUM)
    199  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRECTIONDESCRIPTIONTEXT")=""  ; This is reserved for systems not able to generate the sig in components.
    200  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDOSEINDICATOR")="1"  ; means that we are specifying it. See E2369-05.
    201  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDELIVERYMETHOD")=$G(SIGDATA(8))
    202  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDOSEVALUE")=$G(SIGDATA(.01))
    203  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDOSEUNIT")=$G(SIGDATA(2))
    204  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDRATEVALUE")=""  ; For inpatient
    205  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDRATEUNIT")=""  ; For inpatient
    206  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDVEHICLETEXT")=""  ; For inpatient
    207  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRECTIONROUTETEXT")=$G(SIGDATA(6))
    208  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDFREQUENCYVALUE")=$G(SIGDATA(7))
    209  . . ; Invervals... again another call.
    210  . . ; In the wisdom of the original programmers, the schedule is a free text field
    211  . . ; However, it gets translated by a call to the administration schedule file
    212  . . ; to see if that schedule exists.
    213  . . ; That's the same thing I am going to do.
    214  . . ; Search B index of 51.1 (Admin Schedule) with schedule
    215  . . ; First, remove "PRN" if it exists (don't ask, that's how the file
    216  . . ; works; I wouldn't do it that way).
    217  . . N SCHNOPRN S SCHNOPRN=$G(SIGDATA(7))
    218  . . I SCHNOPRN["PRN" S SCHNOPRN=$E(SCHNOPRN,1,$F(SCHNOPRN,"PRN")-5)
    219  . . ; Super call below:
    220  . . ; 1=File 51.1 3=Field 2 (Frequency in Minutes)
    221  . . ; 4=Packed format, Exact Match 5=Lookup Value
    222  . . ; 6=# of entries to return 7=Index 10=Return Array
    223  . . ;
    224  . . ; I do not account for the fact that two schedules can be
    225  . . ; spelled identically (ie duplicate entry). In that case,
    226  . . ; I get the first. That's just a bad pharmacy pkg maintainer.
    227  . . N C0C515
    228  . . D FIND^DIC(51.1,,"@;2","PX",SCHNOPRN,1,"B",,,"C0C515")
    229  . . N INTERVAL S INTERVAL="" ; Default
    230  . . ; If there are entries found, get it
    231  . . I +$G(C0C515("DILIST",0)) S INTERVAL=$P(C0C515("DILIST",1,0),U,2)
    232  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDINTERVALVALUE")=INTERVAL
    233  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDINTERVALUNIT")="Minute"
    234  . . ; Duration is 10M minutes, 10H hours, 10D for Days
    235  . . ; 10W for weeks, 10L for months. I smell $Select
    236  . . ; But we don't need to do that if there isn't a duration
    237  . . I +$G(SIGDATA(4)) D
    238  . . . N DURUNIT S DURUNIT=$E(SIGDATA(4),$L(SIGDATA(4))) ; get last char
    239  . . . N DURTXT S DURTXT=$S(DURUNIT="M":"Minutes",DURUNIT="H":"Hours",DURUNIT="D":"Days",DURUNIT="W":"Weeks",DURUNIT="L":"Months",1:"Days")
    240  . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONVALUE")=+SIGDATA(4)
    241  . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONUNIT")=DURTXT
    242  . . E  D
    243  . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONVALUE")=""
    244  . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONUNIT")=""
    245  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPRNFLAG")=$G(SIGDATA(4))["PRN"
    246  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMOBJECTID")="" ; when avail
    247  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMTYPETXT")=""
    248  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMDESCRIPTION")=""
    249  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMCODEVALUE")=""
    250  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMCODINGSYSTEM")=""
    251  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMCODINGVERSION")=""
    252  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMSOURCEACTORID")=""
    253  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDSTOPINDICATOR")="" ; not stored
    254  . . ; Another confusing line; I am pretty bad:
    255  . . ; If there is another entry in the FMSIG array (i.e. another line
    256  . . ; in the sig), set the direction count indicator.
    257  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRSEQ")=""  ; Default
    258  . . S:+$O(FMSIG(FMSIGNUM)) @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRSEQ")=DIRCNT
    259  . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDMULDIRMOD")=$G(SIGDATA(5))
    260  . ;
    261  . ; --- END OF DIRECTIONS ---
    262  . ;
    263  . ; Med instructions is a WP field, thus the acrobatics
    264  . ; Notice buffer overflow protection set at 10,000 chars
    265  . ; -- 1. Med Patient Instructions
    266  . N MEDPTIN1 S MEDPTIN1=$$GET1^DIQ(52,RXIEN,115,,"MEDPTIN1")
    267  . N MEDPTIN2,J  S (MEDPTIN2,J)=""
    268  . I $L(MEDPTIN1) F  S J=$O(@MEDPTIN1@(J)) Q:J=""  Q:$L(MEDPTIN2)>10000  S MEDPTIN2=MEDPTIN2_@MEDPTIN1@(J)_" "
    269  . S @MAP@("MEDPTINSTRUCTIONS")=MEDPTIN2
    270  . K J
    271  . ; -- 2. Med Provider Instructions
    272  . N MEDPVIN1 S MEDPVIN1=$$GET1^DIQ(52,RXIEN,39,,"MEDPVIN1")
    273  . N MEDPVIN2,J S (MEDPVIN2,J)=""
    274  . I $L(MEDPVIN1) F  S J=$O(@MEDPVIN1@(J)) Q:J=""  Q:$L(MEDPVIN2)>10000  S MEDPVIN2=MEDPVIN2_@MEDPVIN1@(J)_" "
    275  . S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=MEDPVIN2
    276  . ;
    277  . ; Remaining refills
    278  . S @MAP@("MEDRFNO")=$P(MEDS(MEDCNT),U,6)
    279  . ; ------ END OF MAPPING
    280  . ;
    281  . ; ------ BEGIN XML INSERTION
    282  . N RESULT S RESULT=$NA(^TMP("C0CCCR",$J,"MAPPED"))
    283  . K @RESULT
    284  . D MAP^C0CXPATH(MINXML,MAP,RESULT)
    285  . ; D PARY^C0CXPATH(RESULT)
    286  . ; MAPPING DIRECTIONS
    287  . N MEDDIR1,DIRXML1 S DIRXML1="MEDDIR1" ; VARIABLE AND NAME VARIABLE TEMPLATE
    288  . N MEDDIR2,DIRXML2 S DIRXML2="MEDDIR2" ; VARIABLE AND NAME VARIABLE RESULT
    289  . D QUERY^C0CXPATH(MINXML,"//Medications/Medication/Directions",DIRXML1)
    290  . D REPLACE^C0CXPATH(RESULT,"","//Medications/Medication/Directions")
    291  . ; N MDZ1,MDZNA
    292  . N DIRCNT S DIRCNT=""
    293  . I +$O(@MAP@("M","DIRECTIONS",DIRCNT)) D  ; IF THERE ARE DIRCTIONS
    294  . . F DIRCNT=$O(@MAP@("M","DIRECTIONS",DIRCNT)) D  ; FOR EACH DIRECTION
    295  . . . S MDZNA=$NA(@MAP@("M","DIRECTIONS",DIRCNT))
    296  . . . D MAP^C0CXPATH(DIRXML1,MDZNA,DIRXML2)
    297  . . . D INSERT^C0CXPATH(RESULT,DIRXML2,"//Medications/Medication")
    298  . D:MEDCNT=1 CP^C0CXPATH(RESULT,OUTXML) ; First one is a copy
    299  . D:MEDCNT>1 INSINNER^C0CXPATH(OUTXML,RESULT) ; AFTER THE FIRST, INSERT INNER XML
    300  . S MEDCOUNT=MEDCNT
    301  N MEDTMP,MEDI
    302  D MISSING^C0CXPATH(OUTXML,"MEDTMP") ; SEARCH XML FOR MISSING VARS
    303  I MEDTMP(0)>0 D  ; IF THERE ARE MISSING VARS - MARKED AS @@X@@
    304  . W "MEDICATION MISSING ",!
    305  . F MEDI=1:1:MEDTMP(0) W MEDTMP(MEDI),!
    306  Q
    307  ;
     1C0CMED6 ; WV/CCDCCR/SMH - Meds from RPMS: Outpatient Meds;01/10/09
     2        ;;1.0;C0C;;May 19, 2009;Build 1
     3        ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
     4        ; General Public License See attached copy of the License.
     5        ;
     6        ; This program is free software; you can redistribute it and/or modify
     7        ; it under the terms of the GNU General Public License as published by
     8        ; the Free Software Foundation; either version 2 of the License, or
     9        ; (at your option) any later version.
     10        ;
     11        ; This program is distributed in the hope that it will be useful,
     12        ; but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ; GNU General Public License for more details.
     15        ;
     16        ; You should have received a copy of the GNU General Public License along
     17        ; with this program; if not, write to the Free Software Foundation, Inc.,
     18        ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        W "NO ENTRY FROM TOP",!
     21        Q
     22        ;
     23EXTRACT(MINXML,DFN,OUTXML,MEDCOUNT,FLAGS)        ; EXTRACT MEDICATIONS INTO PROVIDED XML TEMPLATE
     24        ;
     25        ; MINXML and OUTXML are passed by name so globals can be used
     26        ; MINXML will contain only the medications skeleton of the overall template
     27        ; MEDCOUNT is a counter passed by Reference.
     28        ; FLAGS are: MEDALL(bool)^MEDLIMIT(int)^MEDACTIVE(bool)^MEDPENDING(bool)
     29        ; FLAGS are set-up in C0CMED.
     30        ;
     31        ; MEDS is return array from RPC.
     32        ; MAP is a mapping variable map (store result) for each med
     33        ; MED is holds each array element from MEDS(J), one medicine
     34        ; J is a counter.
     35        ;
     36        ; GETRXS^BEHORXFN(ARRAYNAME,DFN,DAYS) will be the the API used.
     37        ; This API has been developed by Medsphere for IHS for getting
     38        ; Medications from RPMS. It has most of what we need.
     39        ; API written by Doug Martin when he worked for Medsphere (thanks Doug!)
     40        ; -- ARRAYNAME is passed by name (required)
     41        ; -- DFN is passed by value (required)
     42        ; -- DAYS is passed by value (optional; if not passed defaults to 365)
     43        ;
     44        ; Return:
     45        ; ~Type^PharmID^Drug^InfRate^StopDt^RefRem^TotDose^UnitDose^OrderID
     46        ; ^Status^LastFill^Chronic^Issued^Rx #^Provider^
     47        ; Status Reason^DEA Handling
     48        ;
     49        N MEDS,MEDS1,MAP
     50        D GETRXS^BEHORXFN("MEDS1",DFN,$P($P(FLAGS,U,2),"-",2)) ; 2nd piece of FLAGS is # of days to retrieve, which comes in the form "T-360"
     51        N ALL S ALL=+FLAGS
     52        N ACTIVE S ACTIVE=$P(FLAGS,U,3)
     53        N PENDING S PENDING=$P(FLAGS,U,4)
     54        S @OUTXML@(0)=0  ;By default, no meds
     55        ; If MEDS1 is not defined, then no meds
     56        I '$D(MEDS1) QUIT
     57        I DEBUG ZWR MEDS1,MINXML
     58        N MEDCNT S MEDCNT=0 ; Med Count
     59        ; The next line is a super line. It goes through the array return
     60        ; and if the first characters are ~OP, it grabs the line.
     61        ; This means that line is for a dispensed Outpatient Med.
     62        ; That line has the metadata about the med that I need.
     63        ; The next lines, however many, are the med and the sig.
     64        ; I won't be using those because I have to get the sig parsed exactly.
     65        N J S J="" F  S J=$O(MEDS1(J)) Q:J=""  I $E(MEDS1(J),1,3)="~OP" S MEDCNT=MEDCNT+1 S MEDS(MEDCNT)=MEDS1(J)
     66        K MEDS1
     67        S MEDCNT="" ; Initialize for $Order
     68        F  S MEDCNT=$O(MEDS(MEDCNT)) Q:MEDCNT=""  D  ; for each medication in the list
     69        . I 'ALL,ACTIVE,$P(MEDS(MEDCNT),U,10)'="ACTIVE" QUIT
     70        . I 'ALL,PENDING,$P(MEDS(MEDCNT),U,10)'="PENDING" QUIT
     71        . I DEBUG W "MEDCNT IS ",MEDCNT,!
     72        . S MAP=$NA(^TMP("C0CCCR",$J,"MEDMAP",MEDCNT))
     73        . ; K @MAP DO NOT KILL HERE, WAS CLEARED IN C0CMED
     74        . I DEBUG W "MAP= ",MAP,!
     75        . S @MAP@("MEDOBJECTID")="MED"_MEDCNT ; MEDCNT FOR ID
     76        . S @MAP@("MEDISSUEDATETXT")="Issue Date"
     77        . S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($P(MEDS(MEDCNT),U,15),"DT")
     78        . S @MAP@("MEDLASTFILLDATETXT")="Last Fill Date"
     79        . S @MAP@("MEDLASTFILLDATE")=$$FMDTOUTC^C0CUTIL($P(MEDS(MEDCNT),U,11),"DT")
     80        . S @MAP@("MEDRXNOTXT")="Prescription Number"
     81        . S @MAP@("MEDRXNO")=$P(MEDS(MEDCNT),U,14)
     82        . S @MAP@("MEDTYPETEXT")="Medication"
     83        . S @MAP@("MEDDETAILUNADORNED")=""  ; Leave blank, field has its uses
     84        . S @MAP@("MEDSTATUSTEXT")=$P(MEDS(MEDCNT),U,10)
     85        . ; Provider only provided in API as text, not DUZ.
     86        . ; We need to get DUZ from filman file 52 (Prescription)
     87        . ; Field 4; IEN is Piece 2 of Meds stripped of trailing characters.
     88        . ; Note that I will use RXIEN several times later
     89        . N RXIEN S RXIEN=+$P(MEDS(MEDCNT),U,2)
     90        . S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$$GET1^DIQ(52,RXIEN,4,"I")
     91        . S @MAP@("MEDPRODUCTNAMETEXT")=$P(MEDS(MEDCNT),U,3)
     92        . ; --- RxNorm Stuff
     93        . ; 176.001 is the file for Concepts; 176.003 is the file for
     94        . ; sources (i.e. for RxNorm Version)
     95        . ;
     96        . ; I use 176.001 for the Vista version of this routine (files 1-3)
     97        . ; Since IHS does not have VUID's, I will be getting RxNorm codes
     98        . ; using NDCs. My specially crafted index (sounds evil) named "NDC"
     99        . ; is in file 176.002. The file is called RxNorm NDC to VUID.
     100        . ; Except that I don't need the VUID, but it's there if I need it.
     101        . ;
     102        . ; We obviously need the NDC. That is easily obtained from the prescription.
     103        . ; Field 27 in file 52
     104        . N NDC S NDC=$$GET1^DIQ(52,RXIEN,27,"I")
     105        . ; I discovered that file 176.002 might give you two codes for the NDC
     106        . ; One for the Clinical Drug, and one for the ingredient.
     107        . ; So the plan is to get the two RxNorm codes, and then find from
     108        . ; file 176.001 which one is the Clinical Drug.
     109        . ; ... I refactored this into GETRXN
     110        . N RXNORM,SRCIEN,RXNNAME,RXNVER
     111        . I +NDC,$D(^C0CRXN) D  ; $Data is for Systems that don't have our RxNorm file yet.
     112        . . S RXNORM=$$GETRXN(NDC)
     113        . . S SRCIEN=$$FIND1^DIC(176.003,,,"RXNORM","B")
     114        . . S RXNNAME=$$GET1^DIQ(176.003,SRCIEN,6)
     115        . . S RXNVER=$$GET1^DIQ(176.003,SRCIEN,7)
     116        . ;
     117        . E  S (RXNORM,RXNNAME,RXNVER)=""
     118        . ; End if/else block
     119        . S @MAP@("MEDPRODUCTNAMECODEVALUE")=RXNORM
     120        . S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=RXNNAME
     121        . S @MAP@("MEDPRODUCTNAMECODEVERSION")=RXNVER
     122        . ; --- End RxNorm section
     123        . ;
     124        . ; Brand name is 52 field 6.5
     125        . S @MAP@("MEDBRANDNAMETEXT")=$$GET1^DIQ(52,RXIEN,6.5)
     126        . ;
     127        . ; Next I need Med Form (tab, cap etc), strength (250mg)
     128        . ; concentration for liquids (250mg/mL)
     129        . ; Since IHS does not have any of the new calls that
     130        . ; Vista has, I will be doing a crosswalk:
     131        . ; File 52, field 6 is Drug IEN in file 50
     132        . ; File 50, field 22 is VA Product IEN in file 50.68
     133        . ; In file 50.68, I will get the following:
     134        . ; -- 1: Dosage Form
     135        . ; -- 2: Strength
     136        . ; -- 3: Units
     137        . ; -- 8: Dispense Units
     138        . ; -- Conc is 2 concatenated with 3
     139        . ;
     140        . ; *** If Drug is not matched to NDF, then VA Product will be "" ***
     141        . ;
     142        . N MEDIEN S MEDIEN=$$GET1^DIQ(52,RXIEN,6,"I") ; Drug IEN in 50
     143        . N VAPROD S VAPROD=$$GET1^DIQ(50,MEDIEN,22,"I") ; VA Product in file 50.68
     144        . I +VAPROD D
     145        . . S @MAP@("MEDSTRENGTHVALUE")=$$GET1^DIQ(50.68,VAPROD,2)
     146        . . S @MAP@("MEDSTRENGTHUNIT")=$$GET1^DIQ(50.68,VAPROD,3)
     147        . . S @MAP@("MEDFORMTEXT")=$$GET1^DIQ(50.68,VAPROD,1)
     148        . . S @MAP@("MEDCONCVALUE")=@MAP@("MEDSTRENGTHVALUE")
     149        . . S @MAP@("MEDCONCUNIT")=@MAP@("MEDSTRENGTHUNIT")
     150        . E  D
     151        . . S @MAP@("MEDSTRENGTHVALUE")=""
     152        . . S @MAP@("MEDSTRENGTHUNIT")=""
     153        . . S @MAP@("MEDFORMTEXT")=""
     154        . . S @MAP@("MEDCONCVALUE")=""
     155        . . S @MAP@("MEDCONCUNIT")=""
     156        . ; End Strengh/Conc stuff
     157        . ;
     158        . ; Quantity is in the prescription, field 7
     159        . S @MAP@("MEDQUANTITYVALUE")=$$GET1^DIQ(52,RXIEN,7)
     160        . ; Dispense unit is in the drug file, field 14.5
     161        . S @MAP@("MEDQUANTITYUNIT")=$$GET1^DIQ(50,MEDIEN,14.5)
     162        . ;
     163        . ; --- START OF DIRECTIONS ---
     164        . ; Sig data not in any API :-(  Oh yes, you can get the whole thing, but...
     165        . ; we want the components.
     166        . ; It's in multiple 113 in the Prescription File (52)
     167        . ; #.01 DOSAGE ORDERED [1F]                    "20"
     168        . ; #1 DISPENSE UNITS PER DOSE [2N]     "1"
     169        . ; #2 UNITS [3P:50.607]                                "MG"
     170        . ; #3 NOUN [4F]                                                "TABLET"
     171        . ; #4 DURATION [5F]                                    "10D"
     172        . ; #5 CONJUNCTION [6S]                                 "AND"
     173        . ; #6 ROUTE [7P:51.2]                          "ORAL"
     174        . ; #7 SCHEDULE [8F]                                    "BID"
     175        . ; #8 VERB [9F]                                                "TAKE"
     176        . ;
     177        . ; Will use GETS^DIQ to get fields.
     178        . ; Data comes out like this:
     179        . ; SAMINS(52.0113,"1,23,",.01)=20
     180        . ; SAMINS(52.0113,"1,23,",1)=1
     181        . ; SAMINS(52.0113,"1,23,",2)="MG"
     182        . ; SAMINS(52.0113,"1,23,",3)="TABLET"
     183        . ; SAMINS(52.0113,"1,23,",4)="5D"
     184        . ; SAMINS(52.0113,"1,23,",5)="THEN"
     185        . ;
     186        . N RAWDATA
     187        . D GETS^DIQ(52,RXIEN,"113*",,"RAWDATA","DIERR")
     188        . D:$D(DIERR) ^%ZTER  ; Log if there's an error in retrieving sig field
     189        . ; none the less, continue; some parts are retrievable.
     190        . N FMSIG M FMSIG=RAWDATA(52.0113) ; Merge into subfile...
     191        . K RAWDATA
     192        . N FMSIGNUM S FMSIGNUM="" ; Sigline number in fileman.
     193        . ; FMSIGNUM gets outputted as "IEN,RXIEN,".
     194        . ; DIRCNT is the proper Sigline numer.
     195        . ; SIGDATA is the simplfied array.
     196        . F  S FMSIGNUM=$O(FMSIG(FMSIGNUM)) Q:FMSIGNUM=""  D
     197        . . N DIRCNT S DIRCNT=$P(FMSIGNUM,",")
     198        . . N SIGDATA M SIGDATA=FMSIG(FMSIGNUM)
     199        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRECTIONDESCRIPTIONTEXT")=""  ; This is reserved for systems not able to generate the sig in components.
     200        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDOSEINDICATOR")="1"  ; means that we are specifying it. See E2369-05.
     201        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDELIVERYMETHOD")=$G(SIGDATA(8))
     202        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDOSEVALUE")=$G(SIGDATA(.01))
     203        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDOSEUNIT")=$G(SIGDATA(2))
     204        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDRATEVALUE")=""  ; For inpatient
     205        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDRATEUNIT")=""  ; For inpatient
     206        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDVEHICLETEXT")=""  ; For inpatient
     207        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRECTIONROUTETEXT")=$G(SIGDATA(6))
     208        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDFREQUENCYVALUE")=$G(SIGDATA(7))
     209        . . ; Invervals... again another call.
     210        . . ; In the wisdom of the original programmers, the schedule is a free text field
     211        . . ; However, it gets translated by a call to the administration schedule file
     212        . . ; to see if that schedule exists.
     213        . . ; That's the same thing I am going to do.
     214        . . ; Search B index of 51.1 (Admin Schedule) with schedule
     215        . . ; First, remove "PRN" if it exists (don't ask, that's how the file
     216        . . ; works; I wouldn't do it that way).
     217        . . N SCHNOPRN S SCHNOPRN=$G(SIGDATA(7))
     218        . . I SCHNOPRN["PRN" S SCHNOPRN=$E(SCHNOPRN,1,$F(SCHNOPRN,"PRN")-5)
     219        . . ; Super call below:
     220        . . ; 1=File 51.1 3=Field 2 (Frequency in Minutes)
     221        . . ; 4=Packed format, Exact Match 5=Lookup Value
     222        . . ; 6=# of entries to return 7=Index 10=Return Array
     223        . . ;
     224        . . ; I do not account for the fact that two schedules can be
     225        . . ; spelled identically (ie duplicate entry). In that case,
     226        . . ; I get the first. That's just a bad pharmacy pkg maintainer.
     227        . . N C0C515
     228        . . D FIND^DIC(51.1,,"@;2","PX",SCHNOPRN,1,"B",,,"C0C515")
     229        . . N INTERVAL S INTERVAL="" ; Default
     230        . . ; If there are entries found, get it
     231        . . I +$G(C0C515("DILIST",0)) S INTERVAL=$P(C0C515("DILIST",1,0),U,2)
     232        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDINTERVALVALUE")=INTERVAL
     233        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDINTERVALUNIT")="Minute"
     234        . . ; Duration is 10M minutes, 10H hours, 10D for Days
     235        . . ; 10W for weeks, 10L for months. I smell $Select
     236        . . ; But we don't need to do that if there isn't a duration
     237        . . I +$G(SIGDATA(4)) D
     238        . . . N DURUNIT S DURUNIT=$E(SIGDATA(4),$L(SIGDATA(4))) ; get last char
     239        . . . N DURTXT S DURTXT=$S(DURUNIT="M":"Minutes",DURUNIT="H":"Hours",DURUNIT="D":"Days",DURUNIT="W":"Weeks",DURUNIT="L":"Months",1:"Days")
     240        . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONVALUE")=+SIGDATA(4)
     241        . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONUNIT")=DURTXT
     242        . . E  D
     243        . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONVALUE")=""
     244        . . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDURATIONUNIT")=""
     245        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPRNFLAG")=$G(SIGDATA(4))["PRN"
     246        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMOBJECTID")="" ; when avail
     247        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMTYPETXT")=""
     248        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMDESCRIPTION")=""
     249        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMCODEVALUE")=""
     250        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMCODINGSYSTEM")=""
     251        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMCODINGVERSION")=""
     252        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDPROBLEMSOURCEACTORID")=""
     253        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDSTOPINDICATOR")="" ; not stored
     254        . . ; Another confusing line; I am pretty bad:
     255        . . ; If there is another entry in the FMSIG array (i.e. another line
     256        . . ; in the sig), set the direction count indicator.
     257        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRSEQ")=""  ; Default
     258        . . S:+$O(FMSIG(FMSIGNUM)) @MAP@("M","DIRECTIONS",DIRCNT,"MEDDIRSEQ")=DIRCNT
     259        . . S @MAP@("M","DIRECTIONS",DIRCNT,"MEDMULDIRMOD")=$G(SIGDATA(5))
     260        . ;
     261        . ; --- END OF DIRECTIONS ---
     262        . ;
     263        . ; Med instructions is a WP field, thus the acrobatics
     264        . ; Notice buffer overflow protection set at 10,000 chars
     265        . ; -- 1. Med Patient Instructions
     266        . N MEDPTIN1 S MEDPTIN1=$$GET1^DIQ(52,RXIEN,115,,"MEDPTIN1")
     267        . N MEDPTIN2,J  S (MEDPTIN2,J)=""
     268        . I $L(MEDPTIN1) F  S J=$O(@MEDPTIN1@(J)) Q:J=""  Q:$L(MEDPTIN2)>10000  S MEDPTIN2=MEDPTIN2_@MEDPTIN1@(J)_" "
     269        . S @MAP@("MEDPTINSTRUCTIONS")=MEDPTIN2
     270        . K J
     271        . ; -- 2. Med Provider Instructions
     272        . N MEDPVIN1 S MEDPVIN1=$$GET1^DIQ(52,RXIEN,39,,"MEDPVIN1")
     273        . N MEDPVIN2,J S (MEDPVIN2,J)=""
     274        . I $L(MEDPVIN1) F  S J=$O(@MEDPVIN1@(J)) Q:J=""  Q:$L(MEDPVIN2)>10000  S MEDPVIN2=MEDPVIN2_@MEDPVIN1@(J)_" "
     275        . S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=MEDPVIN2
     276        . ;
     277        . ; Remaining refills
     278        . S @MAP@("MEDRFNO")=$P(MEDS(MEDCNT),U,6)
     279        . ; ------ END OF MAPPING
     280        . ;
     281        . ; ------ BEGIN XML INSERTION
     282        . N RESULT S RESULT=$NA(^TMP("C0CCCR",$J,"MAPPED"))
     283        . K @RESULT
     284        . D MAP^C0CXPATH(MINXML,MAP,RESULT)
     285        . ; D PARY^C0CXPATH(RESULT)
     286        . ; MAPPING DIRECTIONS
     287        . N MEDDIR1,DIRXML1 S DIRXML1="MEDDIR1" ; VARIABLE AND NAME VARIABLE TEMPLATE
     288        . N MEDDIR2,DIRXML2 S DIRXML2="MEDDIR2" ; VARIABLE AND NAME VARIABLE RESULT
     289        . D QUERY^C0CXPATH(MINXML,"//Medications/Medication/Directions",DIRXML1)
     290        . D REPLACE^C0CXPATH(RESULT,"","//Medications/Medication/Directions")
     291        . ; N MDZ1,MDZNA
     292        . N DIRCNT S DIRCNT=""
     293        . I +$O(@MAP@("M","DIRECTIONS",DIRCNT)) D  ; IF THERE ARE DIRCTIONS
     294        . . F DIRCNT=$O(@MAP@("M","DIRECTIONS",DIRCNT)) D  ; FOR EACH DIRECTION
     295        . . . S MDZNA=$NA(@MAP@("M","DIRECTIONS",DIRCNT))
     296        . . . D MAP^C0CXPATH(DIRXML1,MDZNA,DIRXML2)
     297        . . . D INSERT^C0CXPATH(RESULT,DIRXML2,"//Medications/Medication")
     298        . D:MEDCNT=1 CP^C0CXPATH(RESULT,OUTXML) ; First one is a copy
     299        . D:MEDCNT>1 INSINNER^C0CXPATH(OUTXML,RESULT) ; AFTER THE FIRST, INSERT INNER XML
     300        . S MEDCOUNT=MEDCNT
     301        N MEDTMP,MEDI
     302        D MISSING^C0CXPATH(OUTXML,"MEDTMP") ; SEARCH XML FOR MISSING VARS
     303        I MEDTMP(0)>0 D  ; IF THERE ARE MISSING VARS - MARKED AS @@X@@
     304        . W "MEDICATION MISSING ",!
     305        . F MEDI=1:1:MEDTMP(0) W MEDTMP(MEDI),!
     306        Q
     307        ;
    308308GETRXN(NDC)     ; Extrinsic Function; PUBLIC; NDC to RxNorm
    309  ;; Get RxNorm Concept Number for a Given NDC
    310  ;
    311  S NDC=$TR(NDC,"-")  ; Remove dashes
    312  N RXNORM,C0CZRXN,DIERR
    313  D FIND^DIC(176.002,,"@;.01","PX",NDC,"*","NDC",,,"C0CZRXN","DIERR")
    314  I $D(DIERR) D ^%ZTER BREAK
    315  S RXNORM(0)=+C0CZRXN("DILIST",0) ; RxNorm(0) will be # of entries
    316  N I S I=0
    317  F  S I=$O(C0CZRXN("DILIST",I)) Q:I=""  S RXNORM(I)=$P(C0CZRXN("DILIST",I,0),U,2)
    318  ; At this point, RxNorm(0) is # of entries; RxNorm(1...) are the entries
    319  ; If RxNorm(0) is 1, then we only have one entry, and that's it.
    320  I RXNORM(0)=1 QUIT RXNORM(1)  ; RETURN RXNORM(1)
    321  ; Otherwise, we need to find out which one is the semantic
    322  ; clinical drug. I built an index on 176.001 (RxNorm Concepts)
    323  ; for that purpose.
    324  I RXNORM(0)>1 D
    325  . S I=0
    326  . F  S I=$O(RXNORM(I)) Q:I=""  D  Q:$G(RXNORM)
    327  . . N RXNIEN S RXNIEN=$$FIND1^DIC(176.001,,,RXNORM(I),"SCD")
    328  . . I +$G(RXNIEN)=0 QUIT  ; try the next entry...
    329  . . E  S RXNORM=RXNORM(I) QUIT  ; We found the right code
    330  QUIT +$G(RXNORM)  ; RETURN RXNORM; if we couldn't find a clnical drug, return with 0
    331  
     309        ;; Get RxNorm Concept Number for a Given NDC
     310        ;
     311        S NDC=$TR(NDC,"-")  ; Remove dashes
     312        N RXNORM,C0CZRXN,DIERR
     313        D FIND^DIC(176.002,,"@;.01","PX",NDC,"*","NDC",,,"C0CZRXN","DIERR")
     314        I $D(DIERR) D ^%ZTER BREAK
     315        S RXNORM(0)=+C0CZRXN("DILIST",0) ; RxNorm(0) will be # of entries
     316        N I S I=0
     317        F  S I=$O(C0CZRXN("DILIST",I)) Q:I=""  S RXNORM(I)=$P(C0CZRXN("DILIST",I,0),U,2)
     318        ; At this point, RxNorm(0) is # of entries; RxNorm(1...) are the entries
     319        ; If RxNorm(0) is 1, then we only have one entry, and that's it.
     320        I RXNORM(0)=1 QUIT RXNORM(1)  ; RETURN RXNORM(1)
     321        ; Otherwise, we need to find out which one is the semantic
     322        ; clinical drug. I built an index on 176.001 (RxNorm Concepts)
     323        ; for that purpose.
     324        I RXNORM(0)>1 D
     325        . S I=0
     326        . F  S I=$O(RXNORM(I)) Q:I=""  D  Q:$G(RXNORM)
     327        . . N RXNIEN S RXNIEN=$$FIND1^DIC(176.001,,,RXNORM(I),"SCD")
     328        . . I +$G(RXNIEN)=0 QUIT  ; try the next entry...
     329        . . E  S RXNORM=RXNORM(I) QUIT  ; We found the right code
     330        QUIT +$G(RXNORM)  ; RETURN RXNORM; if we couldn't find a clnical drug, return with 0
     331       
  • ccr/branches/ohum/p/C0CMIME.m

    r1332 r1333  
    1 C0CMIME ; CCDCCR/GPL - MIME manipulation utilities; 3/8/11 ; 5/16/11 2:32pm
    2  ;;1.0;C0C;;Mar 8, 2011;
    3  ;Copyright 2008 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  Q
    21  ;
    22 TEST(ZDFN) ;
    23  D CCRRPC^C0CCCR(.ZCCR,ZDFN) ; GET A CCR TO WORK WITH
    24  ;M ZCOPY=ZCCR
    25  S ZCOPY(1)=""
    26  N ZI S ZI=0
    27  F  S ZI=$O(ZCCR(ZI)) Q:ZI=""  D  ; FOR EACH LINE
    28  . S ZCOPY(1)=ZCOPY(1)_ZCCR(ZI)
    29  ;D ENCODE("ZCOPY",1,ZCOPY(1))
    30  S G(1)=$$ENCODE^RGUTUU(ZCOPY(1))
    31  D CHUNK("G2","G",45)
    32  Q
    33 ENCODE(ZRTN,ZARY) ;
    34  ; ROUTINE TO ENCODE AN XML DOCUMENT FOR SENDING
    35  ; ZARY IS PASSED BY NAME
    36  ; ZRTN IS PASSED BY REFERENCE AND IS THE RETURN
    37  ;
    38  S ZCOPY(1)=""
    39  N ZI S ZI=0
    40  F  S ZI=$O(@ZARY@(ZI)) Q:ZI=""  D  ; FOR EACH LINE
    41  . S ZCOPY(1)=ZCOPY(1)_@ZARY@(ZI)
    42  N G
    43  S G(1)=$$ENCODE^RGUTUU(ZCOPY(1))
    44  D CHUNK(ZRTN,"G",45)
    45  Q
    46  ; THIS ROUTINE WAS COPIED FROM LRSRVR4 AND THEN MODIFIED . THANKS JOHN
    47 ENCODEOLD(IARY,LRNODE,LRSTR) ; Encode a string, keep remainder for next line
    48  ; Call with LRSTR by reference, Remainder returned in LRSTR
    49  ; IARY IS PASSED BY NAME
    50  S LRQUIT=0,LRLEN=$L(LRSTR)
    51  F  D  Q:LRQUIT
    52  . I $L(LRSTR)<45 S LRQUIT=1 Q
    53  . S LRX=$E(LRSTR,1,45)
    54  . S LRNODE=LRNODE+1,@IARY@(LRNODE)=$$UUEN^LRSRVR4(LRX)
    55  . S LRSTR=$E(LRSTR,46,LRLEN)
    56  Q
    57  ;
    58 TESTMAIL ;
    59  ; TEST OF MAILSEND
    60  ;S ZTO("glilly@glilly.net")=""
    61  S ZTO("mish@nhin.openforum.opensourcevista.net")=""
    62  ;S ZTO("martijn@djigzo.com")=""
    63  ;S ZTO("profmish@gmail.com")=""
    64  ;S ZTO("nanthracite@earthlink.net")=""
    65  S ZFROM="ANTHRACITE.NANCY"
    66  S ZATTACH=$NA(^GPL("CCR"))
    67  I $G(@ZATTACH@(1))="" D  ; NO CCR THERE
    68  . D CCRRPC^C0CCCR(.GPL,2) ; GET ONE FROM PATIENT 2
    69  . M @ZATTACH=GPL ; PUT IT IN THERE FOR NEXT TIME
    70  S ZSUBJECT="TEST OF THE NEW MAILSEND ROUTINE"
    71  D MAILSEND(.GR,ZFROM,"ZTO",,ZSUBJECT,,ZATTACH)
    72  ZWR GR
    73  Q
    74  ;
    75 TESTMAIL2 ;
    76  ; TEST OF MAILSEND TO gpl.mdc-crew.net
    77  N C0CGM
    78  S C0CGM(1)="This is a test message."
    79  S C0CGM(2)="A Continuity of Care record is attached"
    80  S C0CGM(3)="It contains no Protected Health Information (PHI)"
    81  S C0CGM(4)="It is purely test data used for software development"
    82  S C0CGM(5)="It does not represent information about any person living or dead"
    83  ;S ZTO("glilly@glilly.net")=""
    84  ;S ZTO("george.lilly@pobox.com")=""
    85  ;S ZTO("george@nhin.openforum.opensourcevista.net")=""
    86  ;S ZTO("mish@nhin.openforum.opensourcevista.net")=""
    87  S ZTO("brooks.richard@securemail.opensourcevista.net")=""
    88  ;S ZTO("LILLY.GEORGE@mdc-crew.net")=""
    89  ;S ZTO("ncoal@live.com")=""
    90  ;S ZTO("martijn@djigzo.com")=""
    91  ;S ZTO("profmish@gmail.com")=""
    92  ;S ZTO("nanthracite@earthlink.net")=""
    93  S ZTO("gpl.doctortest@gmail.com")=""
    94  S ZFROM="LILLY.GEORGE"
    95  S ZATTACH=$NA(^GPL("CCR"))
    96  I $G(@ZATTACH@(1))="" D  ; NO CCR THERE
    97  . D CCRRPC^C0CCCR(.GPL,2) ; GET ONE FROM PATIENT 2
    98  . M @ZATTACH=GPL ; PUT IT IN THERE FOR NEXT TIME
    99  S ZSUBJECT="TEST OF THE NEW MAILSEND ROUTINE"
    100  D MAILSEND(.GR,ZFROM,"ZTO",,ZSUBJECT,"C0CGM",ZATTACH,"CCR.xml")
    101  ZWR GR
    102  Q
    103  ;
    104 LINE(C0CFILE,C0CTO) ; read a file name passed in C0CFILE and send it to
    105  ; the email address in C0CTO
    106  ; the directory and the "from" are all hard coded
    107  ;
    108  N ZZFROM S ZZFROM="LILLY.GEORGE"
    109  N GN S GN=$NA(^TMP("C0CMIME2",$J))
    110  N GN1 S GN1=$NA(@GN@(1))
    111  K @GN
    112  I '$D(C0CFILE) Q  ; NO FILENAME PASSED
    113  I '$D(C0CTO) S C0CTO="brooks.richard@securemail.opensourcevista.net"
    114  S ZZTO(C0CTO)=""
    115  N ZMESS S ZMESS(1)="file transmission from wvehr3-09"
    116  N GD S GD="/home/wvehr3-09/EHR/" ; directory
    117  I '$$FTG^%ZISH(GD,C0CFILE,GN1,3) Q  D  ;
    118  . W !,"error reading file",C0CFILE
    119  D MAILSEND(.ZRTN,ZZFROM,"ZZTO",,"file transmission","ZMESS",GN,C0CFILE)
    120  K @GN ; CLEAN UP
    121  ;ZWR ZRTN
    122  W !,$G(ZRTN(1))
    123  Q
    124  ;
    125 MAILSEND(RTN,FROM,TO,CC,SUBJECT,MESSAGE,ATTACH,FNAME,FLAGS) ; MAIL SENDING INTERFACE
    126  ; RTN IS THE RETURN ARRAY PASSED BY REFERENCE
    127  ; FROM IS PASSED BY VALUE AND IS THE EMAIL ADDRESS OF THE SENDER
    128  ;  IF NULL, WILL SEND FROM THE CURRENT DUZ
    129  ; TO AND CC ARE RECIEPIENT EMAIL ADDRESSES PASSED BY NAME
    130  ;  @TO@("addr1@domain1.net")
    131  ;  @CC@("addr2@domain2.com")  both can be multiples
    132  ; SUBJECT IS PASSED BY VALUE AND WILL GO IN THE SUBJECT LINE
    133  ; MESSAGE IS PASSED BY NAME AND IS AN ARRAY OF TEXT
    134  ; ATTACH IS PASSED BY NAME AND IS AN XML OR HTML FILE TO BE ATTACHED
    135  ; FNAME IS THE FILENAME OF THE ATTACHMENT, DEFAULT IS ccr.xml
    136  ;
    137  I '$D(FNAME) S FNAME="ccr.xml" ; default filename
    138  N GN
    139  S GN=$NA(^TMP($J,"C0CMIME"))
    140  K @GN
    141  S GM(1)="MIME-Version: 1.0"
    142  S GM(2)="Content-Type: multipart/mixed; boudary=""1234567"""
    143  S GM(3)=""
    144  S GM(4)=""
    145  ;S GM(5)="--123456788888"
    146  ;S GM(5)=$$REPEAT^XLFSTR("-",$L(X))
    147  S GM(5)="--123456899999"
    148  S GM(6)="Content-Type: text/xml; name="_FNAME
    149  S GM(7)="Content-Transfer-Encoding: base64"
    150  S GM(8)="Content-Disposition: attachment; filename="_FNAME
    151  S GM(9)=""
    152  S GM(10)="" ; FOR THE END
    153  ;S GM(11)="--123456788888--"
    154  S GM(11)="--123456899999--"
    155  S GM(12)=""
    156  S GM(13)=""
    157  S GG(1)="--123456899999"
    158  S GG(2)="Content-Type: text/plain; charset=ISO-8859-1; format=flowed"
    159  S GG(3)="Content-Transfer-Encoding: 7bit"
    160  S GG(4)=""
    161  S GG(5)="This is a test message."
    162  S GG(6)="A Continuity of Care record is attached"
    163  S GG(7)="It contains no Protected Health Information (PHI)"
    164  S GG(8)="It is purely test data used for software development"
    165  S GG(9)="It does not represent information about any person living or dead"
    166  S GG(10)=""
    167  S GG(11)="--123456899999--"
    168  ;S GG(11)="Content-Type: text/plain; charset=""us-ascii"""
    169  S GG(12)=""
    170  ;S GG(13)="This is a test message."
    171  S GG(14)="A Continuity of Care record is attached"
    172  S GG(15)="It contains no Protected Health Information (PHI)"
    173  S GG(16)="It is purely test data used for software development"
    174  S GG(17)="It does not represent information about any person living or dead"
    175  S GG(18)=""
    176  S GG(19)="--123456899999"
    177  S GG(20)="--987654321--"
    178  K GBLD
    179  ;D QUEUE^C0CXPATH("GBLD","GGG",1,3) ; THE MESSAGE
    180  ;D QUEUE^C0CXPATH("GBLD","GG",1,10) ; THE MESSAGE
    181  I $D(MESSAGE)'="" D  ; THERE IS A MESSAGE
    182  . D QUEUE^C0CXPATH("GBLD","GG",1,4) ; THE MIME BOUNDARY
    183  . D QUEUE^C0CXPATH("GBLD",MESSAGE,1,$O(@MESSAGE@(""),-1)) ;THE MESSAGE
    184  . D QUEUE^C0CXPATH("GBLD","GG",10,10) ;A BLANK LINE
    185  D QUEUE^C0CXPATH("GBLD","GM",5,9)
    186  I $D(ATTACH)'="" D  ; IF WE HAVE AN ATTACHMENT
    187  . D ENCODE("G2",ATTACH) ; ENCODE FOR SENDING
    188  . D QUEUE^C0CXPATH("GBLD","G2",1,$O(G2(""),-1))
    189  D QUEUE^C0CXPATH("GBLD","GM",11,12)
    190  D BUILD^C0CXPATH("GBLD",GN)
    191  ;S GGG=$NA(^GPL("MIME2"))
    192  K @GN@(0) ; KILL THE LINE COUNT
    193  K LRINSTR,LRTASK,LRTO,XMERR,XMZ
    194  M LRTO=@TO
    195  I $D(CC) M LRTO=@CC
    196  S LRINSTR("ADDR FLAGS")="R"
    197  S LRINSTR("FROM")=$G(FROM)
    198  S LRMSUBJ=$G(SUBJECT)
    199  S LRMSUBJ=$E(LRMSUBJ,1,65)
    200  D SENDMSG^XMXAPI(DUZ,LRMSUBJ,GN,.LRTO,.LRINSTR,.LRTASK)
    201  I $G(XMERR)=1 S RTN(1)="ERROR SENDING MESSAGE" Q  ;
    202  S RTN(1)="OK"
    203  Q
    204  ;
    205 MAILSEND0(LRMSUBJ) ; Send extract back to requestor.
    206  ;
    207  ;D TEST
    208  S GN=$NA(^TMP($J,"C0CMIME"))
    209  K @GN
    210  ;M @GN=G2
    211  S GM(1)="MIME-Version: 1.0"
    212  S GM(2)="Content-Type: multipart/mixed; boudary=""1234567"""
    213  S GM(3)=""
    214  S GM(4)=""
    215  S GM(5)="--1234567"
    216  ;S GM(5)=$$REPEAT^XLFSTR("-",$L(X))
    217  S GM(6)="Content-Type: text/xml; name=""ccr.xml"""
    218  S GM(7)="Content-Transfer-Encoding: base64"
    219  S GM(8)="Content-Disposition: attachment; filename=""ccr.xml"""
    220  ;S GM(6)=$$UUBEGFN^LRSRVR2A("CCR.xml")
    221  S GM(9)=""
    222  S GM(10)="" ; FOR THE END
    223  S GM(11)="--frontier--"
    224  S GM(12)="."
    225  S GM(13)=""
    226  K GBLD
    227  ;D QUEUE^C0CXPATH("GBLD","GM",1,9)
    228  ;D QUEUE^C0CXPATH("GBLD","G2",1,$O(G2(""),-1))
    229  ;D QUEUE^C0CXPATH("GBLD","GM",10,13)
    230  ;D BUILD^C0CXPATH("GBLD",GN)
    231  S GGG=$NA(^GPL("MIME2"))
    232  ;D QUEUE^C0CXPATH("GBLD","GM",1,1)
    233  D QUEUE^C0CXPATH("GBLD",GGG,21,159)
    234  D BUILD^C0CXPATH("GBLD",GN)
    235  K @GN@(0) ; KILL THE LINE COUNT
    236  K LRINSTR,LRTASK,LRTO,XMERR,XMZ
    237  S XQSND="glilly@glilly.net"
    238  ;S XQSND="nanthracite@earthlink.net"
    239  ;S XQSND="dlefevre@orohosp.com"
    240  ;S XQSND="gregwoodhouse@me.com"
    241  ;S XQSND="rick.marshall@vistaexpertise.net"
    242  S LRTO(XQSND)=""
    243  S LRINSTR("ADDR FLAGS")="R"
    244  S LRINSTR("FROM")="CCR_PACKAGE"
    245  S LRMSUBJ="A SAMPLE CCR"
    246  S LRMSUBJ=$E(LRMSUBJ,1,65)
    247  D SENDMSG^XMXAPI(9,LRMSUBJ,GN,.LRTO,.LRINSTR,.LRTASK)
    248  I $G(XMERR)=1 W !,"ERROR SENDING MESSAGE" Q  ;
    249  ;S ^XMB(3.9,LRTASK,1,.1130590,0)="MIME-Version: 1.0"
    250  ;S ^XMB(3.9,LRTASK,1,.1130591,0)="Content-type: multipart/mixed; boundary=000e0cd6ae026c3d4b049e7befe9"
    251  Q
    252  ;
    253 MAILSEND2(UDFN,ADDR) ; Send extract back to requestor.
    254  ;
    255  I +$G(UDFN)=0 S UDFN=2 ;
    256  D TEST(UDFN)
    257  S GN=$NA(^TMP($J,"C0CMIME"))
    258  K @GN
    259  ;M @GN=G2
    260  S GM(1)="MIME-Version: 1.0"
    261  S GM(2)="Content-Type: multipart/mixed; boudary=""1234567"""
    262  S GM(3)=""
    263  S GM(4)=""
    264  S GM(5)="--1234567"
    265  ;S GM(5)=$$REPEAT^XLFSTR("-",$L(X))
    266  S GM(6)="Content-Type: text/xml; name=""ccr.xml"""
    267  S GM(7)="Content-Transfer-Encoding: base64"
    268  S GM(8)="Content-Disposition: attachment; filename=""ccr.xml"""
    269  ;S GM(6)=$$UUBEGFN^LRSRVR2A("CCR.xml")
    270  S GM(9)=""
    271  S GM(10)="" ; FOR THE END
    272  S GM(11)="--1234567--"
    273  S GM(12)=""
    274  S GM(13)=""
    275  K GBLD
    276  D QUEUE^C0CXPATH("GBLD","GM",5,9)
    277  D QUEUE^C0CXPATH("GBLD","G2",1,$O(G2(""),-1))
    278  D QUEUE^C0CXPATH("GBLD","GM",10,12)
    279  D BUILD^C0CXPATH("GBLD",GN)
    280  S GGG=$NA(^GPL("MIME2"))
    281  ;D QUEUE^C0CXPATH("GBLD","GM",1,1)
    282  ;D QUEUE^C0CXPATH("GBLD",GGG,21,159)
    283  ;D BUILD^C0CXPATH("GBLD",GN)
    284  K @GN@(0) ; KILL THE LINE COUNT
    285  K LRINSTR,LRTASK,LRTO,XMERR,XMZ
    286  I $G(ADDR)'="" S XQSND=ADDR
    287  E  S XQSND="glilly@glilly.net"
    288  ;S XQSND="nanthracite@earthlink.net"
    289  ;S XQSND="dlefevre@orohosp.com"
    290  ;S XQSND="gregwoodhouse@me.com"
    291  ;S XQSND="rick.marshall@vistaexpertise.net"
    292  S LRTO(XQSND)=""
    293  ;S LRTO("glilly@glilly.net")=""
    294  S LRINSTR("ADDR FLAGS")="R"
    295  S LRINSTR("FROM")="ANTHRACITE.NANCY"
    296  S LRMSUBJ="Sending a CCR with Mailman"
    297  S LRMSUBJ=$E(LRMSUBJ,1,65)
    298  D SENDMSG^XMXAPI(9,LRMSUBJ,GN,.LRTO,.LRINSTR,.LRTASK)
    299  I $G(XMERR)=1 W !,"ERROR SENDING MESSAGE" Q  ;
    300  ;S ^XMB(3.9,LRTASK,1,.1130590,0)="MIME-Version: 1.0"
    301  ;S ^XMB(3.9,LRTASK,1,.1130591,0)="Content-type: multipart/mixed; boundary=000e0cd6ae026c3d4b049e7befe9"
    302  Q
    303  ;
    304 SIMPLE ;
    305  S GN(1)="SIMPLE TEST MESSAGE"
    306  K LRINSTR,LRTASK,LRTO,XMERR,XMZ
    307  S XQSND="glilly@glilly.net"
    308  S LRTO(XQSND)=""
    309  S LRINSTR("ADDR FLAGS")="R"
    310  S LRINSTR("FROM")="CCR_PACKAGE"
    311  S LRMSUBJ="A SAMPLE CCR"
    312  S LRMSUBJ=$E(LRMSUBJ,1,65)
    313  D SENDMSG^XMXAPI(9,LRMSUBJ,"GN",.LRTO,.LRINSTR,.LRTASK)
    314  Q
    315 CHUNK(OUTXML,INXML,ZSIZE) ; BREAKS INXML INTO ZSIZE BLOCKS
    316  ; INXML IS AN ARRAY PASSED BY NAME OF STRINGS
    317  ; OUTXML IS ALSO PASSED BY NAME
    318  ; IF ZSIZE IS NOT PASSED, 1000 IS USED
    319  I '$D(ZSIZE) S ZSIZE=1000 ; DEFAULT BLOCK SIZE
    320  N ZB,ZI,ZJ,ZK,ZL,ZN
    321  S ZB=ZSIZE-1
    322  S ZN=1
    323  S ZI=0 ; BEGINNING OF INDEX TO INXML
    324  F  S ZI=$O(@INXML@(ZI)) Q:+ZI=0  D  ; FOR EACH STRING IN INXML
    325  . S ZL=$L(@INXML@(ZI)) ; LENGTH OF THE STRING
    326  . F ZJ=1:ZSIZE:ZL D  ;
    327  . . S ZK=$S(ZJ+ZB<ZL:ZJ+ZB,1:ZL) ; END FOR EXTRACT
    328  . . S @OUTXML@(ZN)=$E(@INXML@(ZI),ZJ,ZK) ; PULL OUT THE PIECE
    329  . . S ZN=ZN+1 ; INCREMENT OUT ARRAY INDEX
    330  Q
    331  ;
    332 CLEAN(IARY) ; RUNS THROUGH AN ARRAY PASSED BY NAME AND STRIPS OUT $C(13)
    333  ;
    334  N ZI S ZI=0
    335  F  S ZI=$O(@IARY@(ZI)) Q:+ZI=0  D  ;
    336  . S @IARY@(ZI)=$TR(@IARY@(ZI),$C(13)) ;
    337  . I $F(@IARY@(ZI)," <") S @IARY@(ZI)="<"_$P(@IARY@(ZI)," <",2) ; RM BLNKS
    338  Q
    339  ;
     1C0CMIME ; CCDCCR/GPL - MIME manipulation utilities; 3/8/11 ; 5/16/11 2:32pm
     2        ;;1.0;C0C;;Mar 8, 2011;Build 1
     3        ;Copyright 2008 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        Q
     21        ;
     22TEST(ZDFN)      ;
     23        D CCRRPC^C0CCCR(.ZCCR,ZDFN) ; GET A CCR TO WORK WITH
     24        ;M ZCOPY=ZCCR
     25        S ZCOPY(1)=""
     26        N ZI S ZI=0
     27        F  S ZI=$O(ZCCR(ZI)) Q:ZI=""  D  ; FOR EACH LINE
     28        . S ZCOPY(1)=ZCOPY(1)_ZCCR(ZI)
     29        ;D ENCODE("ZCOPY",1,ZCOPY(1))
     30        S G(1)=$$ENCODE^RGUTUU(ZCOPY(1))
     31        D CHUNK("G2","G",45)
     32        Q
     33ENCODE(ZRTN,ZARY)       ;
     34        ; ROUTINE TO ENCODE AN XML DOCUMENT FOR SENDING
     35        ; ZARY IS PASSED BY NAME
     36        ; ZRTN IS PASSED BY REFERENCE AND IS THE RETURN
     37        ;
     38        S ZCOPY(1)=""
     39        N ZI S ZI=0
     40        F  S ZI=$O(@ZARY@(ZI)) Q:ZI=""  D  ; FOR EACH LINE
     41        . S ZCOPY(1)=ZCOPY(1)_@ZARY@(ZI)
     42        N G
     43        S G(1)=$$ENCODE^RGUTUU(ZCOPY(1))
     44        D CHUNK(ZRTN,"G",45)
     45        Q
     46        ; THIS ROUTINE WAS COPIED FROM LRSRVR4 AND THEN MODIFIED . THANKS JOHN
     47ENCODEOLD(IARY,LRNODE,LRSTR)    ; Encode a string, keep remainder for next line
     48        ; Call with LRSTR by reference, Remainder returned in LRSTR
     49        ; IARY IS PASSED BY NAME
     50        S LRQUIT=0,LRLEN=$L(LRSTR)
     51        F  D  Q:LRQUIT
     52        . I $L(LRSTR)<45 S LRQUIT=1 Q
     53        . S LRX=$E(LRSTR,1,45)
     54        . S LRNODE=LRNODE+1,@IARY@(LRNODE)=$$UUEN^LRSRVR4(LRX)
     55        . S LRSTR=$E(LRSTR,46,LRLEN)
     56        Q
     57        ;
     58TESTMAIL        ;
     59        ; TEST OF MAILSEND
     60        ;S ZTO("glilly@glilly.net")=""
     61        S ZTO("mish@nhin.openforum.opensourcevista.net")=""
     62        ;S ZTO("martijn@djigzo.com")=""
     63        ;S ZTO("profmish@gmail.com")=""
     64        ;S ZTO("nanthracite@earthlink.net")=""
     65        S ZFROM="ANTHRACITE.NANCY"
     66        S ZATTACH=$NA(^GPL("CCR"))
     67        I $G(@ZATTACH@(1))="" D  ; NO CCR THERE
     68        . D CCRRPC^C0CCCR(.GPL,2) ; GET ONE FROM PATIENT 2
     69        . M @ZATTACH=GPL ; PUT IT IN THERE FOR NEXT TIME
     70        S ZSUBJECT="TEST OF THE NEW MAILSEND ROUTINE"
     71        D MAILSEND(.GR,ZFROM,"ZTO",,ZSUBJECT,,ZATTACH)
     72        ZWR GR
     73        Q
     74        ;
     75TESTMAIL2       ;
     76        ; TEST OF MAILSEND TO gpl.mdc-crew.net
     77        N C0CGM
     78        S C0CGM(1)="This is a test message."
     79        S C0CGM(2)="A Continuity of Care record is attached"
     80        S C0CGM(3)="It contains no Protected Health Information (PHI)"
     81        S C0CGM(4)="It is purely test data used for software development"
     82        S C0CGM(5)="It does not represent information about any person living or dead"
     83        ;S ZTO("glilly@glilly.net")=""
     84        ;S ZTO("george.lilly@pobox.com")=""
     85        ;S ZTO("george@nhin.openforum.opensourcevista.net")=""
     86        ;S ZTO("mish@nhin.openforum.opensourcevista.net")=""
     87        S ZTO("brooks.richard@securemail.opensourcevista.net")=""
     88        ;S ZTO("LILLY.GEORGE@mdc-crew.net")=""
     89        ;S ZTO("ncoal@live.com")=""
     90        ;S ZTO("martijn@djigzo.com")=""
     91        ;S ZTO("profmish@gmail.com")=""
     92        ;S ZTO("nanthracite@earthlink.net")=""
     93        S ZTO("gpl.doctortest@gmail.com")=""
     94        S ZFROM="LILLY.GEORGE"
     95        S ZATTACH=$NA(^GPL("CCR"))
     96        I $G(@ZATTACH@(1))="" D  ; NO CCR THERE
     97        . D CCRRPC^C0CCCR(.GPL,2) ; GET ONE FROM PATIENT 2
     98        . M @ZATTACH=GPL ; PUT IT IN THERE FOR NEXT TIME
     99        S ZSUBJECT="TEST OF THE NEW MAILSEND ROUTINE"
     100        D MAILSEND(.GR,ZFROM,"ZTO",,ZSUBJECT,"C0CGM",ZATTACH,"CCR.xml")
     101        ZWR GR
     102        Q
     103        ;
     104LINE(C0CFILE,C0CTO)     ; read a file name passed in C0CFILE and send it to
     105        ; the email address in C0CTO
     106        ; the directory and the "from" are all hard coded
     107        ;
     108        N ZZFROM S ZZFROM="LILLY.GEORGE"
     109        N GN S GN=$NA(^TMP("C0CMIME2",$J))
     110        N GN1 S GN1=$NA(@GN@(1))
     111        K @GN
     112        I '$D(C0CFILE) Q  ; NO FILENAME PASSED
     113        I '$D(C0CTO) S C0CTO="brooks.richard@securemail.opensourcevista.net"
     114        S ZZTO(C0CTO)=""
     115        N ZMESS S ZMESS(1)="file transmission from wvehr3-09"
     116        N GD S GD="/home/wvehr3-09/EHR/" ; directory
     117        I '$$FTG^%ZISH(GD,C0CFILE,GN1,3) Q  D  ;
     118        . W !,"error reading file",C0CFILE
     119        D MAILSEND(.ZRTN,ZZFROM,"ZZTO",,"file transmission","ZMESS",GN,C0CFILE)
     120        K @GN ; CLEAN UP
     121        ;ZWR ZRTN
     122        W !,$G(ZRTN(1))
     123        Q
     124        ;
     125MAILSEND(RTN,FROM,TO,CC,SUBJECT,MESSAGE,ATTACH,FNAME,FLAGS)     ; MAIL SENDING INTERFACE
     126        ; RTN IS THE RETURN ARRAY PASSED BY REFERENCE
     127        ; FROM IS PASSED BY VALUE AND IS THE EMAIL ADDRESS OF THE SENDER
     128        ;  IF NULL, WILL SEND FROM THE CURRENT DUZ
     129        ; TO AND CC ARE RECIEPIENT EMAIL ADDRESSES PASSED BY NAME
     130        ;  @TO@("addr1@domain1.net")
     131        ;  @CC@("addr2@domain2.com")  both can be multiples
     132        ; SUBJECT IS PASSED BY VALUE AND WILL GO IN THE SUBJECT LINE
     133        ; MESSAGE IS PASSED BY NAME AND IS AN ARRAY OF TEXT
     134        ; ATTACH IS PASSED BY NAME AND IS AN XML OR HTML FILE TO BE ATTACHED
     135        ; FNAME IS THE FILENAME OF THE ATTACHMENT, DEFAULT IS ccr.xml
     136        ;
     137        I '$D(FNAME) S FNAME="ccr.xml" ; default filename
     138        N GN
     139        S GN=$NA(^TMP($J,"C0CMIME"))
     140        K @GN
     141        S GM(1)="MIME-Version: 1.0"
     142        S GM(2)="Content-Type: multipart/mixed; boudary=""1234567"""
     143        S GM(3)=""
     144        S GM(4)=""
     145        ;S GM(5)="--123456788888"
     146        ;S GM(5)=$$REPEAT^XLFSTR("-",$L(X))
     147        S GM(5)="--123456899999"
     148        S GM(6)="Content-Type: text/xml; name="_FNAME
     149        S GM(7)="Content-Transfer-Encoding: base64"
     150        S GM(8)="Content-Disposition: attachment; filename="_FNAME
     151        S GM(9)=""
     152        S GM(10)="" ; FOR THE END
     153        ;S GM(11)="--123456788888--"
     154        S GM(11)="--123456899999--"
     155        S GM(12)=""
     156        S GM(13)=""
     157        S GG(1)="--123456899999"
     158        S GG(2)="Content-Type: text/plain; charset=ISO-8859-1; format=flowed"
     159        S GG(3)="Content-Transfer-Encoding: 7bit"
     160        S GG(4)=""
     161        S GG(5)="This is a test message."
     162        S GG(6)="A Continuity of Care record is attached"
     163        S GG(7)="It contains no Protected Health Information (PHI)"
     164        S GG(8)="It is purely test data used for software development"
     165        S GG(9)="It does not represent information about any person living or dead"
     166        S GG(10)=""
     167        S GG(11)="--123456899999--"
     168        ;S GG(11)="Content-Type: text/plain; charset=""us-ascii"""
     169        S GG(12)=""
     170        ;S GG(13)="This is a test message."
     171        S GG(14)="A Continuity of Care record is attached"
     172        S GG(15)="It contains no Protected Health Information (PHI)"
     173        S GG(16)="It is purely test data used for software development"
     174        S GG(17)="It does not represent information about any person living or dead"
     175        S GG(18)=""
     176        S GG(19)="--123456899999"
     177        S GG(20)="--987654321--"
     178        K GBLD
     179        ;D QUEUE^C0CXPATH("GBLD","GGG",1,3) ; THE MESSAGE
     180        ;D QUEUE^C0CXPATH("GBLD","GG",1,10) ; THE MESSAGE
     181        I $D(MESSAGE)'="" D  ; THERE IS A MESSAGE
     182        . D QUEUE^C0CXPATH("GBLD","GG",1,4) ; THE MIME BOUNDARY
     183        . D QUEUE^C0CXPATH("GBLD",MESSAGE,1,$O(@MESSAGE@(""),-1)) ;THE MESSAGE
     184        . D QUEUE^C0CXPATH("GBLD","GG",10,10) ;A BLANK LINE
     185        D QUEUE^C0CXPATH("GBLD","GM",5,9)
     186        I $D(ATTACH)'="" D  ; IF WE HAVE AN ATTACHMENT
     187        . D ENCODE("G2",ATTACH) ; ENCODE FOR SENDING
     188        . D QUEUE^C0CXPATH("GBLD","G2",1,$O(G2(""),-1))
     189        D QUEUE^C0CXPATH("GBLD","GM",11,12)
     190        D BUILD^C0CXPATH("GBLD",GN)
     191        ;S GGG=$NA(^GPL("MIME2"))
     192        K @GN@(0) ; KILL THE LINE COUNT
     193        K LRINSTR,LRTASK,LRTO,XMERR,XMZ
     194        M LRTO=@TO
     195        I $D(CC) M LRTO=@CC
     196        S LRINSTR("ADDR FLAGS")="R"
     197        S LRINSTR("FROM")=$G(FROM)
     198        S LRMSUBJ=$G(SUBJECT)
     199        S LRMSUBJ=$E(LRMSUBJ,1,65)
     200        D SENDMSG^XMXAPI(DUZ,LRMSUBJ,GN,.LRTO,.LRINSTR,.LRTASK)
     201        I $G(XMERR)=1 S RTN(1)="ERROR SENDING MESSAGE" Q  ;
     202        S RTN(1)="OK"
     203        Q
     204        ;
     205MAILSEND0(LRMSUBJ)      ; Send extract back to requestor.
     206        ;
     207        ;D TEST
     208        S GN=$NA(^TMP($J,"C0CMIME"))
     209        K @GN
     210        ;M @GN=G2
     211        S GM(1)="MIME-Version: 1.0"
     212        S GM(2)="Content-Type: multipart/mixed; boudary=""1234567"""
     213        S GM(3)=""
     214        S GM(4)=""
     215        S GM(5)="--1234567"
     216        ;S GM(5)=$$REPEAT^XLFSTR("-",$L(X))
     217        S GM(6)="Content-Type: text/xml; name=""ccr.xml"""
     218        S GM(7)="Content-Transfer-Encoding: base64"
     219        S GM(8)="Content-Disposition: attachment; filename=""ccr.xml"""
     220        ;S GM(6)=$$UUBEGFN^LRSRVR2A("CCR.xml")
     221        S GM(9)=""
     222        S GM(10)="" ; FOR THE END
     223        S GM(11)="--frontier--"
     224        S GM(12)="."
     225        S GM(13)=""
     226        K GBLD
     227        ;D QUEUE^C0CXPATH("GBLD","GM",1,9)
     228        ;D QUEUE^C0CXPATH("GBLD","G2",1,$O(G2(""),-1))
     229        ;D QUEUE^C0CXPATH("GBLD","GM",10,13)
     230        ;D BUILD^C0CXPATH("GBLD",GN)
     231        S GGG=$NA(^GPL("MIME2"))
     232        ;D QUEUE^C0CXPATH("GBLD","GM",1,1)
     233        D QUEUE^C0CXPATH("GBLD",GGG,21,159)
     234        D BUILD^C0CXPATH("GBLD",GN)
     235        K @GN@(0) ; KILL THE LINE COUNT
     236        K LRINSTR,LRTASK,LRTO,XMERR,XMZ
     237        S XQSND="glilly@glilly.net"
     238        ;S XQSND="nanthracite@earthlink.net"
     239        ;S XQSND="dlefevre@orohosp.com"
     240        ;S XQSND="gregwoodhouse@me.com"
     241        ;S XQSND="rick.marshall@vistaexpertise.net"
     242        S LRTO(XQSND)=""
     243        S LRINSTR("ADDR FLAGS")="R"
     244        S LRINSTR("FROM")="CCR_PACKAGE"
     245        S LRMSUBJ="A SAMPLE CCR"
     246        S LRMSUBJ=$E(LRMSUBJ,1,65)
     247        D SENDMSG^XMXAPI(9,LRMSUBJ,GN,.LRTO,.LRINSTR,.LRTASK)
     248        I $G(XMERR)=1 W !,"ERROR SENDING MESSAGE" Q  ;
     249        ;S ^XMB(3.9,LRTASK,1,.1130590,0)="MIME-Version: 1.0"
     250        ;S ^XMB(3.9,LRTASK,1,.1130591,0)="Content-type: multipart/mixed; boundary=000e0cd6ae026c3d4b049e7befe9"
     251        Q
     252        ;
     253MAILSEND2(UDFN,ADDR)    ; Send extract back to requestor.
     254        ;
     255        I +$G(UDFN)=0 S UDFN=2 ;
     256        D TEST(UDFN)
     257        S GN=$NA(^TMP($J,"C0CMIME"))
     258        K @GN
     259        ;M @GN=G2
     260        S GM(1)="MIME-Version: 1.0"
     261        S GM(2)="Content-Type: multipart/mixed; boudary=""1234567"""
     262        S GM(3)=""
     263        S GM(4)=""
     264        S GM(5)="--1234567"
     265        ;S GM(5)=$$REPEAT^XLFSTR("-",$L(X))
     266        S GM(6)="Content-Type: text/xml; name=""ccr.xml"""
     267        S GM(7)="Content-Transfer-Encoding: base64"
     268        S GM(8)="Content-Disposition: attachment; filename=""ccr.xml"""
     269        ;S GM(6)=$$UUBEGFN^LRSRVR2A("CCR.xml")
     270        S GM(9)=""
     271        S GM(10)="" ; FOR THE END
     272        S GM(11)="--1234567--"
     273        S GM(12)=""
     274        S GM(13)=""
     275        K GBLD
     276        D QUEUE^C0CXPATH("GBLD","GM",5,9)
     277        D QUEUE^C0CXPATH("GBLD","G2",1,$O(G2(""),-1))
     278        D QUEUE^C0CXPATH("GBLD","GM",10,12)
     279        D BUILD^C0CXPATH("GBLD",GN)
     280        S GGG=$NA(^GPL("MIME2"))
     281        ;D QUEUE^C0CXPATH("GBLD","GM",1,1)
     282        ;D QUEUE^C0CXPATH("GBLD",GGG,21,159)
     283        ;D BUILD^C0CXPATH("GBLD",GN)
     284        K @GN@(0) ; KILL THE LINE COUNT
     285        K LRINSTR,LRTASK,LRTO,XMERR,XMZ
     286        I $G(ADDR)'="" S XQSND=ADDR
     287        E  S XQSND="glilly@glilly.net"
     288        ;S XQSND="nanthracite@earthlink.net"
     289        ;S XQSND="dlefevre@orohosp.com"
     290        ;S XQSND="gregwoodhouse@me.com"
     291        ;S XQSND="rick.marshall@vistaexpertise.net"
     292        S LRTO(XQSND)=""
     293        ;S LRTO("glilly@glilly.net")=""
     294        S LRINSTR("ADDR FLAGS")="R"
     295        S LRINSTR("FROM")="ANTHRACITE.NANCY"
     296        S LRMSUBJ="Sending a CCR with Mailman"
     297        S LRMSUBJ=$E(LRMSUBJ,1,65)
     298        D SENDMSG^XMXAPI(9,LRMSUBJ,GN,.LRTO,.LRINSTR,.LRTASK)
     299        I $G(XMERR)=1 W !,"ERROR SENDING MESSAGE" Q  ;
     300        ;S ^XMB(3.9,LRTASK,1,.1130590,0)="MIME-Version: 1.0"
     301        ;S ^XMB(3.9,LRTASK,1,.1130591,0)="Content-type: multipart/mixed; boundary=000e0cd6ae026c3d4b049e7befe9"
     302        Q
     303        ;
     304SIMPLE  ;
     305        S GN(1)="SIMPLE TEST MESSAGE"
     306        K LRINSTR,LRTASK,LRTO,XMERR,XMZ
     307        S XQSND="glilly@glilly.net"
     308        S LRTO(XQSND)=""
     309        S LRINSTR("ADDR FLAGS")="R"
     310        S LRINSTR("FROM")="CCR_PACKAGE"
     311        S LRMSUBJ="A SAMPLE CCR"
     312        S LRMSUBJ=$E(LRMSUBJ,1,65)
     313        D SENDMSG^XMXAPI(9,LRMSUBJ,"GN",.LRTO,.LRINSTR,.LRTASK)
     314        Q
     315CHUNK(OUTXML,INXML,ZSIZE)       ; BREAKS INXML INTO ZSIZE BLOCKS
     316        ; INXML IS AN ARRAY PASSED BY NAME OF STRINGS
     317        ; OUTXML IS ALSO PASSED BY NAME
     318        ; IF ZSIZE IS NOT PASSED, 1000 IS USED
     319        I '$D(ZSIZE) S ZSIZE=1000 ; DEFAULT BLOCK SIZE
     320        N ZB,ZI,ZJ,ZK,ZL,ZN
     321        S ZB=ZSIZE-1
     322        S ZN=1
     323        S ZI=0 ; BEGINNING OF INDEX TO INXML
     324        F  S ZI=$O(@INXML@(ZI)) Q:+ZI=0  D  ; FOR EACH STRING IN INXML
     325        . S ZL=$L(@INXML@(ZI)) ; LENGTH OF THE STRING
     326        . F ZJ=1:ZSIZE:ZL D  ;
     327        . . S ZK=$S(ZJ+ZB<ZL:ZJ+ZB,1:ZL) ; END FOR EXTRACT
     328        . . S @OUTXML@(ZN)=$E(@INXML@(ZI),ZJ,ZK) ; PULL OUT THE PIECE
     329        . . S ZN=ZN+1 ; INCREMENT OUT ARRAY INDEX
     330        Q
     331        ;
     332CLEAN(IARY)     ; RUNS THROUGH AN ARRAY PASSED BY NAME AND STRIPS OUT $C(13)
     333        ;
     334        N ZI S ZI=0
     335        F  S ZI=$O(@IARY@(ZI)) Q:+ZI=0  D  ;
     336        . S @IARY@(ZI)=$TR(@IARY@(ZI),$C(13)) ;
     337        . I $F(@IARY@(ZI)," <") S @IARY@(ZI)="<"_$P(@IARY@(ZI)," <",2) ; RM BLNKS
     338        Q
     339        ;
  • ccr/branches/ohum/p/C0CMXML.m

    r1332 r1333  
    11C0CMXML   ; GPL - MXML based XPath utilities;10/13/09  17:05
    2         ;;0.1;C0C;nopatch;noreleasedate;Build 38
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CMXMLB.m

    r1332 r1333  
    1 MXMLBLD ;;ISF/RWF - Tool to build XML ;07/09/09  16:55
    2  ;;8.0;KERNEL;;
    3  QUIT
    4  ;
    5  ;DOC - The top level tag
    6  ;DOCTYPE - Want to include a DOCTYPE node
    7  ;FLAG - Set to 'G' to store the output in the global ^TMP("MXMLBLD",$J,
    8 START(DOC,DOCTYPE,FLAG,NO1ST) ;Call this once at the begining.
    9  K ^TMP("MXMLBLD",$J)
    10  S ^TMP("MXMLBLD",$J,"DOC")=DOC,^TMP("MXMLBLD",$J,"STK")=0
    11  I $G(FLAG)["G" S ^TMP("MXMLBLD",$J,"CNT")=1
    12  I $G(NO1ST)'=1 D OUTPUT($$XMLHDR)
    13  D:$L($G(DOCTYPE)) OUTPUT("<!DOCTYPE "_DOCTYPE_">") D OUTPUT("<"_DOC_">")
    14  Q
    15  ;
    16 END ;Call this once to close out the document
    17  D OUTPUT("</"_$G(^TMP("MXMLBLD",$J,"DOC"))_">")
    18  I '$G(^TMP("MXMLBLD",$J,"CNT")) K ^TMP("MXMLBLD",$J)
    19  K ^TMP("MXMLBLD",$J,"DOC"),^("CNT"),^("STK")
    20  Q
    21  ;
    22 ITEM(INDENT,TAG,ATT,VALUE) ;Output a Item
    23  N I,X
    24  S ATT=$G(ATT)
    25  I '$D(VALUE) D OUTPUT($$BLS($G(INDENT))_"<"_TAG_$$ATT(.ATT)_" />") Q
    26  D OUTPUT($$BLS($G(INDENT))_"<"_TAG_$$ATT(.ATT)_">"_$$CHARCHK(VALUE)_"</"_TAG_">")
    27  Q
    28  ;DOITEM is a callback to output the lower level.
    29 MULTI(INDENT,TAG,ATT,DOITEM) ;Output a Multipule
    30  N I,X,S
    31  S ATT=$G(ATT)
    32  D PUSH($G(INDENT),TAG,.ATT)
    33  D @DOITEM
    34  D POP
    35  Q
    36  ;
    37 ATT(ATT) ;Output a string of attributes
    38  I $D(ATT)<9 Q ""
    39  N I,S,V
    40  S S="",I=""
    41  F  S I=$O(ATT(I)) Q:I=""  S S=S_" "_I_"="_$$Q(ATT(I))
    42  Q S
    43  ;
    44 Q(X) ;Add Quotes - Changed by gpl to use single instead of double quotes 6/11
    45  ;I X'[$C(34) Q $C(34)_X_$C(34)
    46  I X'[$C(39) Q $C(39)_X_$C(39)
    47  ;N Q,Y,I,Z S Q=$C(34),(Y,Z)=""
    48  N Q,Y,I,Z S Q=$C(39),(Y,Z)=""
    49  F I=1:1:$L(X,Q)-1 S Y=Y_$P(X,Q,I)_Q_Q
    50  S Y=Y_$P(X,Q,$L(X,Q))
    51  ;Q $C(34)_Y_$C(34)
    52  Q $C(39)_Y_$C(39)
    53  ;
    54 XMLHDR() ; -- provides current XML standard header
    55  Q "<?xml version=""1.0"" encoding=""utf-8"" ?>"
    56  ;
    57 OUTPUT(S) ;Output
    58  N C S C=$G(^TMP("MXMLBLD",$J,"CNT"))
    59  I C S ^TMP("MXMLBLD",$J,C)=S,^TMP("MXMLBLD",$J,"CNT")=C+1 Q
    60  W S,!
    61  Q
    62  ;
    63 CHARCHK(STR) ; -- replace xml character limits with entities
    64  N A,I,X,Y,Z,NEWSTR
    65  S (Y,Z)=""
    66  ;IF STR["&" SET NEWSTR=STR DO  SET STR=Y_Z
    67  ;. FOR X=1:1  SET Y=Y_$PIECE(NEWSTR,"&",X)_"&amp;",Z=$PIECE(STR,"&",X+1,999) QUIT:Z'["&"
    68  I STR["&" F I=1:1:$L(STR,"&")-1 S STR=$P(STR,"&",1,I)_"&amp;"_$P(STR,"&",I+1,999)
    69  I STR["<" F  S STR=$PIECE(STR,"<",1)_"&lt;"_$PIECE(STR,"<",2,99) Q:STR'["<"
    70  I STR[">" F  S STR=$PIECE(STR,">",1)_"&gt;"_$PIECE(STR,">",2,99) Q:STR'[">"
    71  I STR["'" F  S STR=$PIECE(STR,"'",1)_"&apos;"_$PIECE(STR,"'",2,99) Q:STR'["'"
    72  I STR["""" F  S STR=$PIECE(STR,"""",1)_"&quot;"_$PIECE(STR,"""",2,99) Q:STR'[""""
    73  ;
    74  S STR=$TR(STR,$C(0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31))
    75  QUIT STR
    76  ;
    77 COMMENT(VAL) ;Add Comments
    78  N I,L
    79  ;I $D($G(VAL))=1 D OUTPUT("<!-- "_ATT_" -->") Q
    80  I $D(VAL) D OUTPUT("<!-- "_ATT_" -->") Q  ;CHANGED BY GPL FOR GTM
    81  S I="",L="<!--"
    82  F  S I=$O(ATT(I)) Q:I=""  D OUTPUT(L_ATT(I)) S L=""
    83  D OUTPUT("-->")
    84  Q
    85  ;
    86 PUSH(INDENT,TAG,ATT) ;Write a TAG and save.
    87  N CNT
    88  S ATT=$G(ATT)
    89  D OUTPUT($$BLS($G(INDENT))_"<"_TAG_$$ATT(.ATT)_">")
    90  S CNT=$G(^TMP("MXMLBLD",$J,"STK"))+1,^TMP("MXMLBLD",$J,"STK")=CNT,^TMP("MXMLBLD",$J,"STK",CNT)=INDENT_"^"_TAG
    91  Q
    92  ;
    93 POP ;Write last pushed tag and pop
    94  N CNT,TAG,INDENT,X
    95  S CNT=$G(^TMP("MXMLBLD",$J,"STK")),X=^TMP("MXMLBLD",$J,"STK",CNT),^TMP("MXMLBLD",$J,"STK")=CNT-1
    96  S INDENT=+X,TAG=$P(X,"^",2)
    97  D OUTPUT($$BLS(INDENT)_"</"_TAG_">")
    98  Q
    99  ;
    100 BLS(I) ;Return INDENT string
    101  N S
    102  S S="",I=$G(I) S:I>0 $P(S," ",I)=" "
    103  Q S
    104  ;
    105 INDENT() ;Renturn indent level
    106  Q +$G(^TMP("MXMLBLD",$J,"STK"))
     1MXMLBLD ;;ISF/RWF - Tool to build XML ;07/09/09  16:55
     2        ;;8.0;KERNEL;;;Build 1
     3        QUIT
     4        ;
     5        ;DOC - The top level tag
     6        ;DOCTYPE - Want to include a DOCTYPE node
     7        ;FLAG - Set to 'G' to store the output in the global ^TMP("MXMLBLD",$J,
     8START(DOC,DOCTYPE,FLAG,NO1ST)   ;Call this once at the begining.
     9        K ^TMP("MXMLBLD",$J)
     10        S ^TMP("MXMLBLD",$J,"DOC")=DOC,^TMP("MXMLBLD",$J,"STK")=0
     11        I $G(FLAG)["G" S ^TMP("MXMLBLD",$J,"CNT")=1
     12        I $G(NO1ST)'=1 D OUTPUT($$XMLHDR)
     13        D:$L($G(DOCTYPE)) OUTPUT("<!DOCTYPE "_DOCTYPE_">") D OUTPUT("<"_DOC_">")
     14        Q
     15        ;
     16END     ;Call this once to close out the document
     17        D OUTPUT("</"_$G(^TMP("MXMLBLD",$J,"DOC"))_">")
     18        I '$G(^TMP("MXMLBLD",$J,"CNT")) K ^TMP("MXMLBLD",$J)
     19        K ^TMP("MXMLBLD",$J,"DOC"),^("CNT"),^("STK")
     20        Q
     21        ;
     22ITEM(INDENT,TAG,ATT,VALUE)      ;Output a Item
     23        N I,X
     24        S ATT=$G(ATT)
     25        I '$D(VALUE) D OUTPUT($$BLS($G(INDENT))_"<"_TAG_$$ATT(.ATT)_" />") Q
     26        D OUTPUT($$BLS($G(INDENT))_"<"_TAG_$$ATT(.ATT)_">"_$$CHARCHK(VALUE)_"</"_TAG_">")
     27        Q
     28        ;DOITEM is a callback to output the lower level.
     29MULTI(INDENT,TAG,ATT,DOITEM)    ;Output a Multipule
     30        N I,X,S
     31        S ATT=$G(ATT)
     32        D PUSH($G(INDENT),TAG,.ATT)
     33        D @DOITEM
     34        D POP
     35        Q
     36        ;
     37ATT(ATT)        ;Output a string of attributes
     38        I $D(ATT)<9 Q ""
     39        N I,S,V
     40        S S="",I=""
     41        F  S I=$O(ATT(I)) Q:I=""  S S=S_" "_I_"="_$$Q(ATT(I))
     42        Q S
     43        ;
     44Q(X)    ;Add Quotes - Changed by gpl to use single instead of double quotes 6/11
     45        ;I X'[$C(34) Q $C(34)_X_$C(34)
     46        I X'[$C(39) Q $C(39)_X_$C(39)
     47        ;N Q,Y,I,Z S Q=$C(34),(Y,Z)=""
     48        N Q,Y,I,Z S Q=$C(39),(Y,Z)=""
     49        F I=1:1:$L(X,Q)-1 S Y=Y_$P(X,Q,I)_Q_Q
     50        S Y=Y_$P(X,Q,$L(X,Q))
     51        ;Q $C(34)_Y_$C(34)
     52        Q $C(39)_Y_$C(39)
     53        ;
     54XMLHDR()        ; -- provides current XML standard header
     55        Q "<?xml version=""1.0"" encoding=""utf-8"" ?>"
     56        ;
     57OUTPUT(S)       ;Output
     58        N C S C=$G(^TMP("MXMLBLD",$J,"CNT"))
     59        I C S ^TMP("MXMLBLD",$J,C)=S,^TMP("MXMLBLD",$J,"CNT")=C+1 Q
     60        W S,!
     61        Q
     62        ;
     63CHARCHK(STR)    ; -- replace xml character limits with entities
     64        N A,I,X,Y,Z,NEWSTR
     65        S (Y,Z)=""
     66        ;IF STR["&" SET NEWSTR=STR DO  SET STR=Y_Z
     67        ;. FOR X=1:1  SET Y=Y_$PIECE(NEWSTR,"&",X)_"&amp;",Z=$PIECE(STR,"&",X+1,999) QUIT:Z'["&"
     68        I STR["&" F I=1:1:$L(STR,"&")-1 S STR=$P(STR,"&",1,I)_"&amp;"_$P(STR,"&",I+1,999)
     69        I STR["<" F  S STR=$PIECE(STR,"<",1)_"&lt;"_$PIECE(STR,"<",2,99) Q:STR'["<"
     70        I STR[">" F  S STR=$PIECE(STR,">",1)_"&gt;"_$PIECE(STR,">",2,99) Q:STR'[">"
     71        I STR["'" F  S STR=$PIECE(STR,"'",1)_"&apos;"_$PIECE(STR,"'",2,99) Q:STR'["'"
     72        I STR["""" F  S STR=$PIECE(STR,"""",1)_"&quot;"_$PIECE(STR,"""",2,99) Q:STR'[""""
     73        ;
     74        S STR=$TR(STR,$C(0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31))
     75        QUIT STR
     76        ;
     77COMMENT(VAL)    ;Add Comments
     78        N I,L
     79        ;I $D($G(VAL))=1 D OUTPUT("<!-- "_ATT_" -->") Q
     80        I $D(VAL) D OUTPUT("<!-- "_ATT_" -->") Q  ;CHANGED BY GPL FOR GTM
     81        S I="",L="<!--"
     82        F  S I=$O(ATT(I)) Q:I=""  D OUTPUT(L_ATT(I)) S L=""
     83        D OUTPUT("-->")
     84        Q
     85        ;
     86PUSH(INDENT,TAG,ATT)    ;Write a TAG and save.
     87        N CNT
     88        S ATT=$G(ATT)
     89        D OUTPUT($$BLS($G(INDENT))_"<"_TAG_$$ATT(.ATT)_">")
     90        S CNT=$G(^TMP("MXMLBLD",$J,"STK"))+1,^TMP("MXMLBLD",$J,"STK")=CNT,^TMP("MXMLBLD",$J,"STK",CNT)=INDENT_"^"_TAG
     91        Q
     92        ;
     93POP     ;Write last pushed tag and pop
     94        N CNT,TAG,INDENT,X
     95        S CNT=$G(^TMP("MXMLBLD",$J,"STK")),X=^TMP("MXMLBLD",$J,"STK",CNT),^TMP("MXMLBLD",$J,"STK")=CNT-1
     96        S INDENT=+X,TAG=$P(X,"^",2)
     97        D OUTPUT($$BLS(INDENT)_"</"_TAG_">")
     98        Q
     99        ;
     100BLS(I)  ;Return INDENT string
     101        N S
     102        S S="",I=$G(I) S:I>0 $P(S," ",I)=" "
     103        Q S
     104        ;
     105INDENT()        ;Renturn indent level
     106        Q +$G(^TMP("MXMLBLD",$J,"STK"))
  • ccr/branches/ohum/p/C0CMXP.m

    r1332 r1333  
    11C0CMXP    ; GPL - MXML based XPath utilities;12/04/09  17:05
    2         ;;0.1;C0C;nopatch;noreleasedate;Build 38
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CNHIN.m

    r1332 r1333  
    11C0CNHIN   ; GPL - PROCESSING FOR OUTPUT OF NHINV ROUTINES;6/3/11  17:05
    2  ;;0.1;C0C;nopatch;noreleasedate;Build 38
    3  ;Copyright 2011 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  Q
    21 EN(ZRTN,ZDFN,ZPART,KEEP) ; GENERATE AN NHIN ARRAY FOR A PATIENT
    22  ;
    23  K GARY,GNARY,GIDX,C0CDOCID
    24  N GN
    25  K ^TMP("NHINV",$J) ; CLEAN UP FROM LAST CALL
    26  K ^TMP("MXMLDOM",$J) ; CLEAN UP DOM
    27  K ^TMP("MXMLERR",$J) ; CLEAN UP MXML ERRORS
    28  D GET^NHINV(.GN,ZDFN,ZPART) ; CALL NHINV ROUTINES TO PULL XML
    29  S GN=$P(GN,")",1)_")" ; CUT OFF THE REST OF LINE PROTOCOL
    30  S C0CDOCID=$$PARSE(GN,"NHINARRAY") ; PARSE WITH MXML
    31  D DOMO^C0CDOM(C0CDOCID,"/","ZRTN","GIDX","GARY",,"/results/") ; BLD ARRAYS
    32  I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
    33  ;D PROCESS("ZRTN",GN,"/result/",$G(KEEP))
    34  Q
    35  ;
    36 PQRI(ZOUT,KEEP) ; RETURN THE NHIN ARRAY FOR THE PQRI XML TEMPLATE
    37  ;
    38  N ZG
    39  S ZG=$NA(^TMP("PQRIXML",$J))
    40  K @ZG
    41  D GETXML^C0CMXP(ZG,"PQRIXML") ; GET THE XML FROM C0C MISC XML
    42  N C0CDOCID
    43  S C0CDOCID=$$PARSE^C0CDOM(ZG,"PQRIXML") ; PARSE THE XML
    44  D DOMO^C0CDOM(C0CDOCID,"/","ZOUT","GIDX","GARY",,"//submission") ; BLD ARRAYS
    45  I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
    46  Q
    47  ;
    48 PQRI2(ZRTN) ; RETURN THE NHIN ARRAY FOR PQRI ONE MEASURE
    49  ;
    50  ;N GG
    51  D GETXML^C0CMXP("GG","PQRI ONE MEASURE")
    52  D PROCESS(ZRTN,"GG","root",1)
    53  Q
    54  ;
    55 PROCESS(ZRSLT,ZXML,ZREDUCE,KEEP) ; PARSE AND RUN DOMO ON XML
    56  ; ZRTN IS PASSED BY REFERENCE
    57  ; ZXML IS PASSED BY NAME
    58  ; IF KEEP IS 1, GARY AND GIDX ARE NOT KILLED
    59  ;
    60  N GN
    61  S GN=$NA(^TMP("C0CPROCESS",$J))
    62  K @GN
    63  M @GN=@ZXML
    64  S C0CDOCID=$$PARSE(GN,"NHINARRAY") ; PARSE WITH MXML
    65  K @GN
    66  D DOMO^C0CDOM(C0CDOCID,"/","ZRSLT","GIDX","GARY",,$G(ZREDUCE)) ; BLD ARRAYS
    67  I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
    68  Q
    69  ;
    70 LOADSMRT ;
    71  ;
    72  K ^GPL("SMART")
    73  S GN=$NA(^GPL("SMART",1))
    74  I $$FTG^%ZISH("/home/george/","alex-lewis2.xml",GN,2) W !,"SMART FILE LOADED"
    75  Q
    76  ;
    77 SMART ; TRY IT WITH SMART
    78  ;
    79  S GN=$NA(^GPL("SMART"))
    80  ;K ^TMP("MXMLDOM",$J)
    81  K ^TMP("MXMLERR",$J)
    82  S C0CDOCID=$$PARSE(GN,"SMART")
    83  D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//rdf:RDF/")
    84  ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
    85  Q
    86  ;
    87 CCR ; TRY IT WITH A CCR
    88  ;
    89  S GN=$NA(^GPL("CCR"))
    90  ;K ^TMP("MXMLDOM",$J)
    91  K ^TMP("MXMLERR",$J)
    92  S C0CDOCID=$$PARSE(GN,"CCR")
    93  D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//ContinuityOfCareRecord/Body/")
    94  ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
    95  Q
    96  ;
    97 MED ; TRY IT WITH A CCR MED SECTION
    98  ;
    99  S GN=$NA(^GPL("MED"))
    100  K ^TMP("MXMLDOM",$J)
    101  K ^TMP("MXMLERR",$J)
    102  S C0CDOCID=$$PARSE(GN,"MED")
    103  D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//Medications/")
    104  ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
    105  Q
    106  ;
    107 CCD ; TRY IT WITH A CCD
    108  ;
    109  S GN=$NA(^GPL("CCD"))
    110  ;K ^TMP("MXMLDOM",$J)
    111  K ^TMP("MXMLERR",$J)
    112  S C0CDOCID=$$PARSE(GN,"CCD")
    113  D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//ClinicalDocument/component/structuredBody/")
    114  ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
    115  Q
    116  ;
    117 TEST1 ; TEST NHINV OUTPUT IN ^GPL("NIHIN")
    118  ; PARSED WITH MXML
    119  ; RUN THROUGH XPATH
    120  K GARY,GIDX,C0CDOCID
    121  S GN=$NA(^GPL("NHIN"))
    122  ;S GN=$NA(^GPL("DOMI"))
    123  S C0CDOCID=$$PARSE(GN,"GPLTEST")
    124  D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"/results/")
    125  K ^GPL("GNARY")
    126  M ^GPL("GNARY")=GNARY
    127  Q
    128  ;
    129 TEST2 ; PUT GNARY THROUGH DOMI AND STORE XML IN ^GPL("DOMI")
    130  ;
    131  S GN=$NA(^GPL("GNARY"))
    132  S C0CDOCID=$$DOMI^C0CDOM(GN,,"results")
    133  D OUTXML^C0CDOM("G",C0CDOCID)
    134  K ^GPL("DOMI")
    135  M ^GPL("DOMI")=G
    136  Q
    137  ;
    138 TEST3 ; TEST NHINV OUTPUT IN ^GPL("NIHIN")
    139  ; PARSED WITH MXML
    140  ; RUN THROUGH XPATH
    141  K GARY,GIDX,C0CDOCID
    142  ;S GN=$NA(^GPL("NHIN"))
    143  S GN=$NA(^GPL("DOMI"))
    144  S C0CDOCID=$$PARSE(GN,"GPLTEST")
    145  D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"/results/")
    146  Q
    147  ;
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        ;Copyright 2011 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        Q
     21EN(ZRTN,ZDFN,ZPART,KEEP)        ; GENERATE AN NHIN ARRAY FOR A PATIENT
     22        ;
     23        K GARY,GNARY,GIDX,C0CDOCID
     24        N GN
     25        K ^TMP("NHINV",$J) ; CLEAN UP FROM LAST CALL
     26        K ^TMP("MXMLDOM",$J) ; CLEAN UP DOM
     27        K ^TMP("MXMLERR",$J) ; CLEAN UP MXML ERRORS
     28        D GET^NHINV(.GN,ZDFN,ZPART) ; CALL NHINV ROUTINES TO PULL XML
     29        S GN=$P(GN,")",1)_")" ; CUT OFF THE REST OF LINE PROTOCOL
     30        S C0CDOCID=$$PARSE(GN,"NHINARRAY") ; PARSE WITH MXML
     31        D DOMO^C0CDOM(C0CDOCID,"/","ZRTN","GIDX","GARY",,"/results/") ; BLD ARRAYS
     32        I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
     33        ;D PROCESS("ZRTN",GN,"/result/",$G(KEEP))
     34        Q
     35        ;
     36PQRI(ZOUT,KEEP) ; RETURN THE NHIN ARRAY FOR THE PQRI XML TEMPLATE
     37        ;
     38        N ZG
     39        S ZG=$NA(^TMP("PQRIXML",$J))
     40        K @ZG
     41        D GETXML^C0CMXP(ZG,"PQRIXML") ; GET THE XML FROM C0C MISC XML
     42        N C0CDOCID
     43        S C0CDOCID=$$PARSE^C0CDOM(ZG,"PQRIXML") ; PARSE THE XML
     44        D DOMO^C0CDOM(C0CDOCID,"/","ZOUT","GIDX","GARY",,"//submission") ; BLD ARRAYS
     45        I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
     46        Q
     47        ;
     48PQRI2(ZRTN)     ; RETURN THE NHIN ARRAY FOR PQRI ONE MEASURE
     49        ;
     50        ;N GG
     51        D GETXML^C0CMXP("GG","PQRI ONE MEASURE")
     52        D PROCESS(ZRTN,"GG","root",1)
     53        Q
     54        ;
     55PROCESS(ZRSLT,ZXML,ZREDUCE,KEEP)        ; PARSE AND RUN DOMO ON XML
     56        ; ZRTN IS PASSED BY REFERENCE
     57        ; ZXML IS PASSED BY NAME
     58        ; IF KEEP IS 1, GARY AND GIDX ARE NOT KILLED
     59        ;
     60        N GN
     61        S GN=$NA(^TMP("C0CPROCESS",$J))
     62        K @GN
     63        M @GN=@ZXML
     64        S C0CDOCID=$$PARSE(GN,"NHINARRAY") ; PARSE WITH MXML
     65        K @GN
     66        D DOMO^C0CDOM(C0CDOCID,"/","ZRSLT","GIDX","GARY",,$G(ZREDUCE)) ; BLD ARRAYS
     67        I '$G(KEEP) K GIDX,GARY ; GET RID OF THE ARRAYS UNLESS KEEP=1
     68        Q
     69        ;
     70LOADSMRT        ;
     71        ;
     72        K ^GPL("SMART")
     73        S GN=$NA(^GPL("SMART",1))
     74        I $$FTG^%ZISH("/home/george/","alex-lewis2.xml",GN,2) W !,"SMART FILE LOADED"
     75        Q
     76        ;
     77SMART   ; TRY IT WITH SMART
     78        ;
     79        S GN=$NA(^GPL("SMART"))
     80        ;K ^TMP("MXMLDOM",$J)
     81        K ^TMP("MXMLERR",$J)
     82        S C0CDOCID=$$PARSE(GN,"SMART")
     83        D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//rdf:RDF/")
     84        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
     85        Q
     86        ;
     87CCR     ; TRY IT WITH A CCR
     88        ;
     89        S GN=$NA(^GPL("CCR"))
     90        ;K ^TMP("MXMLDOM",$J)
     91        K ^TMP("MXMLERR",$J)
     92        S C0CDOCID=$$PARSE(GN,"CCR")
     93        D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//ContinuityOfCareRecord/Body/")
     94        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
     95        Q
     96        ;
     97MED     ; TRY IT WITH A CCR MED SECTION
     98        ;
     99        S GN=$NA(^GPL("MED"))
     100        K ^TMP("MXMLDOM",$J)
     101        K ^TMP("MXMLERR",$J)
     102        S C0CDOCID=$$PARSE(GN,"MED")
     103        D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//Medications/")
     104        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
     105        Q
     106        ;
     107CCD     ; TRY IT WITH A CCD
     108        ;
     109        S GN=$NA(^GPL("CCD"))
     110        ;K ^TMP("MXMLDOM",$J)
     111        K ^TMP("MXMLERR",$J)
     112        S C0CDOCID=$$PARSE(GN,"CCD")
     113        D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"//ClinicalDocument/component/structuredBody/")
     114        ;K ^TMP("MXMLDOM",$J) ;CLEAN UP... IT'S BIG
     115        Q
     116        ;
     117TEST1   ; TEST NHINV OUTPUT IN ^GPL("NIHIN")
     118        ; PARSED WITH MXML
     119        ; RUN THROUGH XPATH
     120        K GARY,GIDX,C0CDOCID
     121        S GN=$NA(^GPL("NHIN"))
     122        ;S GN=$NA(^GPL("DOMI"))
     123        S C0CDOCID=$$PARSE(GN,"GPLTEST")
     124        D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"/results/")
     125        K ^GPL("GNARY")
     126        M ^GPL("GNARY")=GNARY
     127        Q
     128        ;
     129TEST2   ; PUT GNARY THROUGH DOMI AND STORE XML IN ^GPL("DOMI")
     130        ;
     131        S GN=$NA(^GPL("GNARY"))
     132        S C0CDOCID=$$DOMI^C0CDOM(GN,,"results")
     133        D OUTXML^C0CDOM("G",C0CDOCID)
     134        K ^GPL("DOMI")
     135        M ^GPL("DOMI")=G
     136        Q
     137        ;
     138TEST3   ; TEST NHINV OUTPUT IN ^GPL("NIHIN")
     139        ; PARSED WITH MXML
     140        ; RUN THROUGH XPATH
     141        K GARY,GIDX,C0CDOCID
     142        ;S GN=$NA(^GPL("NHIN"))
     143        S GN=$NA(^GPL("DOMI"))
     144        S C0CDOCID=$$PARSE(GN,"GPLTEST")
     145        D DOMO^C0CDOM(C0CDOCID,"/","GNARY","GIDX","GARY",,"/results/")
     146        Q
     147        ;
    148148DOMO(ZOID,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; RECURSIVE ROUTINE TO POPULATE
    149  ; THE XPATH INDEX ZXIDX, PASSED BY NAME
    150  ; THE XPATH ARRAY XPARY, PASSED BY NAME
    151  ; ZOID IS THE STARTING OID
    152  ; ZPATH IS THE STARTING XPATH, USUALLY "/"
    153  ; ZNUM IS THE MULTIPLE NUMBER [x], USUALLY NULL WHEN ON THE TOP NODE
    154  ; ZREDUX IS THE XPATH REDUCTION STRING, TAKEN OUT OF EACH XPATH IF PRESENT
    155  I $G(ZREDUX)="" S ZREDUX=""
    156  N NEWPATH,NARY ; NEWPATH IS AN XPATH NARY IS AN NHIN MUMPS ARRAY
    157  N NEWNUM S NEWNUM=""
    158  I $G(ZNUM)>0 S NEWNUM="["_ZNUM_"]"
    159  S NEWPATH=ZPATH_"/"_$$TAG(ZOID)_NEWNUM ; CREATE THE XPATH FOR THIS NODE
    160  I $G(ZREDUX)'="" D  ; REDUX PROVIDED?
    161  . N GT S GT=$P(NEWPATH,ZREDUX,2)
    162  . I GT'="" S NEWPATH=GT
    163  S @ZXIDX@(NEWPATH)=ZOID ; ADD THE XPATH FOR THIS NODE TO THE XPATH INDEX
    164  N GA D ATT("GA",ZOID) ; GET ATTRIBUTES FOR THIS NODE
    165  I $D(GA) D  ; PROCESS THE ATTRIBUTES
    166  . N ZI S ZI=""
    167  . F  S ZI=$O(GA(ZI)) Q:ZI=""  D  ; FOR EACH ATTRIBUTE
    168  . . N ZP S ZP=NEWPATH_"/"_ZI ; PATH FOR ATTRIBUTE
    169  . . S @ZXPARY@(ZP)=GA(ZI) ; ADD THE ATTRIBUTE XPATH TO THE XP ARRAY
    170  . . I GA(ZI)'="" D ADDNARY(ZP,GA(ZI)) ; ADD THE NHIN ARRAY VALUE
    171  N GD D DATA("GD",ZOID) ; SEE IF THERE IS DATA FOR THIS NODE
    172  I $D(GD(2)) D  ;
    173  . M @ZXPARY@(NEWPATH)=GD ; IF MULITPLE DATA MERGE TO THE ARRAY
    174  E  I $D(GD(1)) D  ;
    175  . S @ZXPARY@(NEWPATH)=GD(1) ; IF SINGLE VALUE, ADD TO ARRAY
    176  . I GD(1)'="" D ADDNARY(NEWPATH,GD(1)) ; ADD TO NHIN ARRAY
    177  N ZFRST S ZFRST=$$FIRST(ZOID) ; SET FIRST CHILD
    178  I ZFRST'=0 D  ; THERE IS A CHILD
    179  . N ZNUM
    180  . N ZMULT S ZMULT=$$ISMULT(ZFRST) ; IS FIRST CHILD A MULTIPLE
    181  . D DOMO(ZFRST,NEWPATH,ZNARY,ZXIDX,ZXPARY,$S(ZMULT:1,1:""),ZREDUX) ; THE CHILD
    182  N GNXT S GNXT=$$NXTSIB(ZOID)
    183  I $$TAG(GNXT)'=$$TAG(ZOID) S ZNUM="" ; RESET COUNTING AFTER MULTIPLES
    184  I GNXT'=0 D  ;
    185  . N ZMULT S ZMULT=$$ISMULT(GNXT) ; IS THE SIBLING A MULTIPLE?
    186  . I (ZNUM="")&(ZMULT) D  ; SIBLING IS FIRST OF MULTIPLES
    187  . . N ZNUM S ZNUM=1 ;
    188  . . D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; DO NEXT SIB
    189  . E  D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; SIB
    190  Q
    191  ;
    192 ADDNARY(ZXP,ZVALUE) ; ADD AN NHIN ARRAY VALUE TO ZNARY
    193  ;
    194  N ZZI,ZZJ,ZZN
    195  S ZZI=$P(ZXP,"/",1) ; FIRST PIECE OF XPATH ARRAY
    196  I ZZI="" Q  ; DON'T ADD THIS ONE .. PROBABLY THE //results NODE
    197  S ZZJ=$P(ZXP,ZZI_"/",2) ; REST OF XPATH ARRAY
    198  S ZZJ=$TR(ZZJ,"/",".") ; REPLACE / WITH .
    199  I ZZI'["]" D  ; A SINGLETON
    200  . S ZZN=1
    201  E  D  ; THERE IS AN [x] OCCURANCE
    202  . S ZZN=$P($P(ZZI,"[",2),"]",1) ; PULL OUT THE OCCURANCE
    203  . S ZZI=$P(ZZI,"[",1) ; TAKE OUT THE [X]
    204  I ZZJ'="" S @ZNARY@(ZZI,ZZN,ZZJ)=ZVALUE
    205  Q
    206  ;
     149        ; THE XPATH INDEX ZXIDX, PASSED BY NAME
     150        ; THE XPATH ARRAY XPARY, PASSED BY NAME
     151        ; ZOID IS THE STARTING OID
     152        ; ZPATH IS THE STARTING XPATH, USUALLY "/"
     153        ; ZNUM IS THE MULTIPLE NUMBER [x], USUALLY NULL WHEN ON THE TOP NODE
     154        ; ZREDUX IS THE XPATH REDUCTION STRING, TAKEN OUT OF EACH XPATH IF PRESENT
     155        I $G(ZREDUX)="" S ZREDUX=""
     156        N NEWPATH,NARY ; NEWPATH IS AN XPATH NARY IS AN NHIN MUMPS ARRAY
     157        N NEWNUM S NEWNUM=""
     158        I $G(ZNUM)>0 S NEWNUM="["_ZNUM_"]"
     159        S NEWPATH=ZPATH_"/"_$$TAG(ZOID)_NEWNUM ; CREATE THE XPATH FOR THIS NODE
     160        I $G(ZREDUX)'="" D  ; REDUX PROVIDED?
     161        . N GT S GT=$P(NEWPATH,ZREDUX,2)
     162        . I GT'="" S NEWPATH=GT
     163        S @ZXIDX@(NEWPATH)=ZOID ; ADD THE XPATH FOR THIS NODE TO THE XPATH INDEX
     164        N GA D ATT("GA",ZOID) ; GET ATTRIBUTES FOR THIS NODE
     165        I $D(GA) D  ; PROCESS THE ATTRIBUTES
     166        . N ZI S ZI=""
     167        . F  S ZI=$O(GA(ZI)) Q:ZI=""  D  ; FOR EACH ATTRIBUTE
     168        . . N ZP S ZP=NEWPATH_"/"_ZI ; PATH FOR ATTRIBUTE
     169        . . S @ZXPARY@(ZP)=GA(ZI) ; ADD THE ATTRIBUTE XPATH TO THE XP ARRAY
     170        . . I GA(ZI)'="" D ADDNARY(ZP,GA(ZI)) ; ADD THE NHIN ARRAY VALUE
     171        N GD D DATA("GD",ZOID) ; SEE IF THERE IS DATA FOR THIS NODE
     172        I $D(GD(2)) D  ;
     173        . M @ZXPARY@(NEWPATH)=GD ; IF MULITPLE DATA MERGE TO THE ARRAY
     174        E  I $D(GD(1)) D  ;
     175        . S @ZXPARY@(NEWPATH)=GD(1) ; IF SINGLE VALUE, ADD TO ARRAY
     176        . I GD(1)'="" D ADDNARY(NEWPATH,GD(1)) ; ADD TO NHIN ARRAY
     177        N ZFRST S ZFRST=$$FIRST(ZOID) ; SET FIRST CHILD
     178        I ZFRST'=0 D  ; THERE IS A CHILD
     179        . N ZNUM
     180        . N ZMULT S ZMULT=$$ISMULT(ZFRST) ; IS FIRST CHILD A MULTIPLE
     181        . D DOMO(ZFRST,NEWPATH,ZNARY,ZXIDX,ZXPARY,$S(ZMULT:1,1:""),ZREDUX) ; THE CHILD
     182        N GNXT S GNXT=$$NXTSIB(ZOID)
     183        I $$TAG(GNXT)'=$$TAG(ZOID) S ZNUM="" ; RESET COUNTING AFTER MULTIPLES
     184        I GNXT'=0 D  ;
     185        . N ZMULT S ZMULT=$$ISMULT(GNXT) ; IS THE SIBLING A MULTIPLE?
     186        . I (ZNUM="")&(ZMULT) D  ; SIBLING IS FIRST OF MULTIPLES
     187        . . N ZNUM S ZNUM=1 ;
     188        . . D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; DO NEXT SIB
     189        . E  D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; SIB
     190        Q
     191        ;
     192ADDNARY(ZXP,ZVALUE)     ; ADD AN NHIN ARRAY VALUE TO ZNARY
     193        ;
     194        N ZZI,ZZJ,ZZN
     195        S ZZI=$P(ZXP,"/",1) ; FIRST PIECE OF XPATH ARRAY
     196        I ZZI="" Q  ; DON'T ADD THIS ONE .. PROBABLY THE //results NODE
     197        S ZZJ=$P(ZXP,ZZI_"/",2) ; REST OF XPATH ARRAY
     198        S ZZJ=$TR(ZZJ,"/",".") ; REPLACE / WITH .
     199        I ZZI'["]" D  ; A SINGLETON
     200        . S ZZN=1
     201        E  D  ; THERE IS AN [x] OCCURANCE
     202        . S ZZN=$P($P(ZZI,"[",2),"]",1) ; PULL OUT THE OCCURANCE
     203        . S ZZI=$P(ZZI,"[",1) ; TAKE OUT THE [X]
     204        I ZZJ'="" S @ZNARY@(ZZI,ZZN,ZZJ)=ZVALUE
     205        Q
     206        ;
    207207PARSE(INXML,INDOC)      ;CALL THE MXML PARSER ON INXML, PASSED BY NAME
    208  ; INDOC IS PASSED AS THE DOCUMENT NAME - DON'T KNOW WHERE TO STORE THIS NOW
    209  ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY MXML
    210  ;Q $$EN^MXMLDOM(INXML)
    211  Q $$EN^MXMLDOM(INXML,"W")
    212  ;
     208        ; INDOC IS PASSED AS THE DOCUMENT NAME - DON'T KNOW WHERE TO STORE THIS NOW
     209        ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY MXML
     210        ;Q $$EN^MXMLDOM(INXML)
     211        Q $$EN^MXMLDOM(INXML,"W")
     212        ;
    213213ISMULT(ZOID)    ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
    214  N ZN
    215  ;I $$TAG(ZOID)["entry" B
    216  S ZN=$$NXTSIB(ZOID)
    217  I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
    218  Q 0
    219  ;
     214        N ZN
     215        ;I $$TAG(ZOID)["entry" B
     216        S ZN=$$NXTSIB(ZOID)
     217        I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
     218        Q 0
     219        ;
    220220FIRST(ZOID)     ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
    221  Q $$CHILD^MXMLDOM(C0CDOCID,ZOID)
    222  ;
     221        Q $$CHILD^MXMLDOM(C0CDOCID,ZOID)
     222        ;
    223223PARENT(ZOID)    ;RETURNS THE OID OF THE PARENT OF ZOID
    224  Q $$PARENT^MXMLDOM(C0CDOCID,ZOID)
    225  ;
     224        Q $$PARENT^MXMLDOM(C0CDOCID,ZOID)
     225        ;
    226226ATT(RTN,NODE)   ;GET ATTRIBUTES FOR ZOID
    227  S HANDLE=C0CDOCID
    228  K @RTN
    229  D GETTXT^MXMLDOM("A")
    230  Q
    231  ;
     227        S HANDLE=C0CDOCID
     228        K @RTN
     229        D GETTXT^MXMLDOM("A")
     230        Q
     231        ;
    232232TAG(ZOID)       ; RETURNS THE XML TAG FOR THE NODE
    233  ;I ZOID=149 B ;GPLTEST
    234  N X,Y
    235  S Y=""
    236  S X=$G(C0CCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
    237  I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
    238  I Y="" S Y=$$NAME^MXMLDOM(C0CDOCID,ZOID)
    239  Q Y
    240  ;
     233        ;I ZOID=149 B ;GPLTEST
     234        N X,Y
     235        S Y=""
     236        S X=$G(C0CCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
     237        I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
     238        I Y="" S Y=$$NAME^MXMLDOM(C0CDOCID,ZOID)
     239        Q Y
     240        ;
    241241NXTSIB(ZOID)    ; RETURNS THE NEXT SIBLING
    242  Q $$SIBLING^MXMLDOM(C0CDOCID,ZOID)
    243  ;
     242        Q $$SIBLING^MXMLDOM(C0CDOCID,ZOID)
     243        ;
    244244DATA(ZT,ZOID)   ; RETURNS DATA FOR THE NODE
    245  ;N ZT,ZN S ZT=""
    246  ;S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
    247  ;Q $G(@C0CDOM@(ZOID,"T",1))
    248  S ZN=$$TEXT^MXMLDOM(C0CDOCID,ZOID,ZT)
    249  Q
    250  ;
     245        ;N ZT,ZN S ZT=""
     246        ;S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
     247        ;Q $G(@C0CDOM@(ZOID,"T",1))
     248        S ZN=$$TEXT^MXMLDOM(C0CDOCID,ZOID,ZT)
     249        Q
     250        ;
    251251OUTXML(ZRTN,INID)       ; USES C0CMXMLB (MXMLBLD) TO OUTPUT XML FROM AN MXMLDOM
    252  ;
    253  S C0CDOCID=INID
    254  D START^C0CMXMLB($$TAG(1),,"G")
    255  D NDOUT($$FIRST(1))
    256  D END^C0CMXMLB ;END THE DOCUMENT
    257  M @ZRTN=^TMP("MXMLBLD",$J)
    258  K ^TMP("MXMLBLD",$J)
    259  Q
    260  ;
     252        ;
     253        S C0CDOCID=INID
     254        D START^C0CMXMLB($$TAG(1),,"G")
     255        D NDOUT($$FIRST(1))
     256        D END^C0CMXMLB ;END THE DOCUMENT
     257        M @ZRTN=^TMP("MXMLBLD",$J)
     258        K ^TMP("MXMLBLD",$J)
     259        Q
     260        ;
    261261NDOUT(ZOID)     ;CALLBACK ROUTINE - IT IS RECURSIVE
    262  N ZI S ZI=$$FIRST(ZOID)
    263  I ZI'=0 D  ; THERE IS A CHILD
    264  . N ZATT D ATT("ZATT",ZOID) ; THESE ARE THE ATTRIBUTES MOVED TO ZATT
    265  . D MULTI^C0CMXMLB("",$$TAG(ZOID),.ZATT,"NDOUT^C0CMXML(ZI)") ;HAVE CHILDREN
    266  E  D  ; NO CHILD - IF NO CHILDREN, A NODE HAS DATA, IS AN ENDPOINT
    267  . ;W "DOING",ZOID,!
    268  . N ZD D DATA("ZD",ZOID) ;NODES WITHOUT CHILDREN HAVE DATA
    269  . N ZATT D ATT("ZATT",ZOID) ;ATTRIBUTES
    270  . D ITEM^C0CMXMLB("",$$TAG(ZOID),.ZATT,$G(ZD(1))) ;NO CHILDREN
    271  I $$NXTSIB(ZOID)'=0 D  ; THERE IS A SIBLING
    272  . D NDOUT($$NXTSIB(ZOID)) ;RECURSE FOR SIBLINGS
    273  Q
    274  ;
    275 WNHIN(ZDFN) ; WRITES THE XML OUTPUT OF GET^NHINV TO AN XML FILE
    276  ;
    277  N GN,GN2
    278  D GET^NHINV(.GN,ZDFN) ; EXTRACT THE XML
    279  S GN2=$NA(@GN@(1))
    280  W $$OUTPUT^C0CXPATH(GN2,"nhin_"_ZDFN_".xml","/home/wvehr3-09/")
    281  Q
    282  ;
    283 TESTNARY ; TEST MAKING A NHIN ARRAY
    284  N ZI S ZI=""
    285  N ZH ; DOM HANDLE
    286  D TEST1 ; PARSE AN NHIN RESULT INTO THE DOM
    287  S ZH=C0CDOCID ; SET THE HANDLE
    288  N ZD S ZD=$NA(^TMP("MXMLDOM",$J,ZH))
    289  F  S ZI=$O(@ZD@(ZI)) Q:ZI=""  D  ; FOR EACH NODE
    290  . N ZATT
    291  . D MNARY(.ZATT,ZH,ZI)
    292  . N ZPRE,ZN
    293  . S ZPRE=$$PRE(ZI)
    294  . S ZN=$P(ZPRE,",",2)
    295  . S ZPRE=$P(ZPRE,",",1)
    296  . ;I $D(ZATT) ZWR ZATT
    297  . N ZJ S ZJ=""
    298  . F  S ZJ=$O(ZATT(ZJ)) Q:ZJ=""  D  ; FOR EACH ATTRIBUTE
    299  . . W ZPRE_"["_ZN_"]"_$$TAG(ZI)_"."_ZJ_"="_ZATT(ZJ),!
    300  . . S GOUT(ZPRE,ZN,$$TAG(ZI)_"."_ZJ)=ZATT(ZJ)
    301  Q
    302  ;
    303 PRE(ZNODE) ; EXTRINSIC WHICH RETURNS THE PREFIX FOR A NODE
    304  ;
    305  N GI,GI2,GPT,GJ,GN
    306  S GI=$$PARENT(ZNODE) ; PARENT NODE
    307  I GI=0 Q ""  ; NO PARENT
    308  S GPT=$$TAG(GI) ; TAG OF PARENT
    309  S GI2=$$PARENT(GI) ; PARENT OF PARENT
    310  I (GI2'=0)&($$TAG(GI2)'="results") S GPT=$$TAG(GI2)_"."_GPT
    311  S GJ=$$FIRST(GI) ; NODE OF FIRST SIB
    312  I GJ=ZNODE Q:$$TAG(GI)_",1"
    313  F GN=2:1 Q:GJ=ZNODE  D  ;
    314  . S GJ=$$NXTSIB(GJ) ; NEXT SIBLING
    315  Q GPT_","_GN
    316  ;
    317 MNARY(ZRTN,ZHANDLE,ZOID) ; MAKE A NHIN ARRAY FROM A DOM NODE
    318  ; RETURNED IN ZRTN, PASSED BY REFERENCE
    319  ; ZHANDLE IS THE DOM DOCUMENT ID
    320  ; ZOID IS THE DOM NODE
    321  D ATT("ZRTN",ZOID)
    322  Q
    323  ;
     262        N ZI S ZI=$$FIRST(ZOID)
     263        I ZI'=0 D  ; THERE IS A CHILD
     264        . N ZATT D ATT("ZATT",ZOID) ; THESE ARE THE ATTRIBUTES MOVED TO ZATT
     265        . D MULTI^C0CMXMLB("",$$TAG(ZOID),.ZATT,"NDOUT^C0CMXML(ZI)") ;HAVE CHILDREN
     266        E  D  ; NO CHILD - IF NO CHILDREN, A NODE HAS DATA, IS AN ENDPOINT
     267        . ;W "DOING",ZOID,!
     268        . N ZD D DATA("ZD",ZOID) ;NODES WITHOUT CHILDREN HAVE DATA
     269        . N ZATT D ATT("ZATT",ZOID) ;ATTRIBUTES
     270        . D ITEM^C0CMXMLB("",$$TAG(ZOID),.ZATT,$G(ZD(1))) ;NO CHILDREN
     271        I $$NXTSIB(ZOID)'=0 D  ; THERE IS A SIBLING
     272        . D NDOUT($$NXTSIB(ZOID)) ;RECURSE FOR SIBLINGS
     273        Q
     274        ;
     275WNHIN(ZDFN)     ; WRITES THE XML OUTPUT OF GET^NHINV TO AN XML FILE
     276        ;
     277        N GN,GN2
     278        D GET^NHINV(.GN,ZDFN) ; EXTRACT THE XML
     279        S GN2=$NA(@GN@(1))
     280        W $$OUTPUT^C0CXPATH(GN2,"nhin_"_ZDFN_".xml","/home/wvehr3-09/")
     281        Q
     282        ;
     283TESTNARY        ; TEST MAKING A NHIN ARRAY
     284        N ZI S ZI=""
     285        N ZH ; DOM HANDLE
     286        D TEST1 ; PARSE AN NHIN RESULT INTO THE DOM
     287        S ZH=C0CDOCID ; SET THE HANDLE
     288        N ZD S ZD=$NA(^TMP("MXMLDOM",$J,ZH))
     289        F  S ZI=$O(@ZD@(ZI)) Q:ZI=""  D  ; FOR EACH NODE
     290        . N ZATT
     291        . D MNARY(.ZATT,ZH,ZI)
     292        . N ZPRE,ZN
     293        . S ZPRE=$$PRE(ZI)
     294        . S ZN=$P(ZPRE,",",2)
     295        . S ZPRE=$P(ZPRE,",",1)
     296        . ;I $D(ZATT) ZWR ZATT
     297        . N ZJ S ZJ=""
     298        . F  S ZJ=$O(ZATT(ZJ)) Q:ZJ=""  D  ; FOR EACH ATTRIBUTE
     299        . . W ZPRE_"["_ZN_"]"_$$TAG(ZI)_"."_ZJ_"="_ZATT(ZJ),!
     300        . . S GOUT(ZPRE,ZN,$$TAG(ZI)_"."_ZJ)=ZATT(ZJ)
     301        Q
     302        ;
     303PRE(ZNODE)      ; EXTRINSIC WHICH RETURNS THE PREFIX FOR A NODE
     304        ;
     305        N GI,GI2,GPT,GJ,GN
     306        S GI=$$PARENT(ZNODE) ; PARENT NODE
     307        I GI=0 Q ""  ; NO PARENT
     308        S GPT=$$TAG(GI) ; TAG OF PARENT
     309        S GI2=$$PARENT(GI) ; PARENT OF PARENT
     310        I (GI2'=0)&($$TAG(GI2)'="results") S GPT=$$TAG(GI2)_"."_GPT
     311        S GJ=$$FIRST(GI) ; NODE OF FIRST SIB
     312        I GJ=ZNODE Q:$$TAG(GI)_",1"
     313        F GN=2:1 Q:GJ=ZNODE  D  ;
     314        . S GJ=$$NXTSIB(GJ) ; NEXT SIBLING
     315        Q GPT_","_GN
     316        ;
     317MNARY(ZRTN,ZHANDLE,ZOID)        ; MAKE A NHIN ARRAY FROM A DOM NODE
     318        ; RETURNED IN ZRTN, PASSED BY REFERENCE
     319        ; ZHANDLE IS THE DOM DOCUMENT ID
     320        ; ZOID IS THE DOM NODE
     321        D ATT("ZRTN",ZOID)
     322        Q
     323        ;
  • ccr/branches/ohum/p/C0CNMED2.m

    r1332 r1333  
    11C0CMED  ; WV/CCDCCR/GPL/SMH - CCR/CCD Medications Driver; Mar 23 2009
    2  ;;1.0;C0C;;May 19, 2009;Build 38
    3  ; Copyright 2008,2009 George Lilly, University of Minnesota and Sam Habiel.
    4  ; Licensed under the terms of the GNU General Public License.
    5  ; See attached copy of the License.
    6  ;
    7  ; This program is free software; you can redistribute it and/or modify
    8  ; it under the terms of the GNU General Public License as published by
    9  ; the Free Software Foundation; either version 2 of the License, or
    10  ; (at your option) any later version.
    11  ;
    12  ; This program is distributed in the hope that it will be useful,
    13  ; but WITHOUT ANY WARRANTY; without even the implied warranty of
    14  ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    15  ; GNU General Public License for more details.
    16  ;
    17  ; You should have received a copy of the GNU General Public License along
    18  ; with this program; if not, write to the Free Software Foundation, Inc.,
    19  ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    20  ;
    21  ; --Revision History
    22  ; July 2008 - Initial Version/GPL
    23  ; July 2008 - March 2009 various revisions
    24  ; March 2009 - Reconstruction of routine as driver for other med routines/SMH
    25  ; June 2011 - Redone to support all meds using the FOIA NHIN routines/gpl
    26  ;
    27  Q
    28  ;
    29  ; THIS VERSION IS DEPRECATED BECAUSE IT DOES NOT GENEREATE XML IN
    30  ; THE RIGHT ORDER... AND IT HAS TO BE IN THE RIGHT ORDER... :(
    31  ; GPL
    32  ;
    33 EXTRACT(MEDXML,DFN,MEDOUTXML) ; Private; Extract medications into provided XML template
    34  ; DFN passed by reference
    35  ; MEDXML and MEDOUTXML are passed by Name
    36  ; MEDXML is the input template
    37  ; MEDOUTXML is the output template
    38  ; Both of them refer to ^TMP globals where the XML documents are stored
    39  ;
    40  N GN
    41  D EN^C0CNHIN(.GN,DFN,"MED;",1) ; RETRIEVE NHIN ARRAY OF MEDS
    42  ; this call uses GET^NHINV to retrieve xml of the meds and then
    43  ; parses with MXML and uses DOMO^C0CDOM to extract an NHIN array
    44  ;
    45  ; we now create an NHIN Array of the Meds section of the CCR
    46  ;
    47  N ZI S ZI=""
    48  F  S ZI=$O(GN("med",ZI)) Q:ZI=""  D  ; for each med
    49  . N GA S GA=$NA(GN("med",ZI))
    50  . N GM S GM="Medication" ; to keep the lines shorter
    51  . S GC(GM,ZI,"CCRDataObjectID")="MED_"_ZI
    52  . N ZD,ZD2 S ZD=$G(@GA@("ordered@value")) ; FILEMAN DATE
    53  . I ZD="" S ZD=$G(@GA@("start@value")) ; for inpatient meds
    54  . S ZD2=$$FMDTOUTC^C0CUTIL(ZD,"DT")
    55  . S GC(GM,ZI,"DateTime[1].ExactDateTime")=ZD2
    56  . S GC(GM,ZI,"DateTime[1].Type.Text")="Documented Date"
    57  . ;S GC(GM,ZI,"DateTime[2].ExactDateTime")=""
    58  . ;S GC(GM,ZI,"DateTime[2].Type.Text")=""
    59  . N GSIG S GSIG=$G(@GA@("sig"))
    60  . I GSIG["|" S GSIG=$P(GSIG,"|",2) ; eRx has name of drug separated by |
    61  . S GC(GM,ZI,"Description.Text")=GSIG
    62  . N GD S GD="Directions.Direction" ; MAKING THE STRINGS SHORTER
    63  . ;S GC(GM,ZI,GD_".DeliveryMethod.Text")="@@MEDDELIVERYMETHOD@@"
    64  . ;S GC(GM,ZI,GD_".Description.Text")=""
    65  . ;S GC(GM,ZI,GD_".DirectionSequenceModifier")="@@MEDDIRSEQ@@"
    66  . ;S GC(GM,ZI,GD_".Dose.Rate.Units.Unit")="@@MEDRATEUNIT@@"
    67  . ;S GC(GM,ZI,GD_".Dose.Rate.Value")="@@MEDRATEVALUE@@"
    68  . ;S GC(GM,ZI,GD_".Dose.Units.Unit")="@@MEDDOSEUNIT@@"
    69  . ;S GC(GM,ZI,GD_".Dose.Value")="@@MEDDOSEVALUE@@"
    70  . ;S GC(GM,ZI,GD_".DoseIndicator.Text")="@@MEDDOSEINDICATOR@@"
    71  . ;S GC(GM,ZI,GD_".Duration.Units.Unit")="@@MEDDURATIONUNIT@@"
    72  . ;S GC(GM,ZI,GD_".Duration.Value")="@@MEDDURATIONVALUE@@"
    73  . ;S GC(GM,ZI,GD_".Frequency.Value")="@@MEDFREQUENCYVALUE@@"
    74  . ;S GC(GM,ZI,GD_".Indication.PRNFlag.Text")="@@MEDPRNFLAG@@"
    75  . ;S GC(GM,ZI,GD_".Indication.Problem.CCRDataObjectID")=""
    76  . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Code.CodingSystem")=""
    77  . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Code.Value")=""
    78  . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Code.Version")=""
    79  . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Text")=""
    80  . ;S GC(GM,ZI,GD_".Indication.Problem.Source.Actor.ActorID")=""
    81  . ;S GC(GM,ZI,GD_".Indication.Problem.Type.Text")=""
    82  . ;S GC(GM,ZI,GD_".Interval.Units.Unit")="@@MEDINTERVALUNIT@@"
    83  . ;S GC(GM,ZI,GD_".Interval.Value")="@@MEDINTERVALVALUE@@"
    84  . ;S GC(GM,ZI,GD_".MultipleDirectionModifier.Text")="@@MEDMULDIRMOD@@"
    85  . S GC(GM,ZI,GD_".Route.Text")=$G(@GA@("doses.dose@route"))
    86  . ;S GC(GM,ZI,GD_".StopIndicator.Text")="@@MEDSTOPINDICATOR@@"
    87  . ;S GC(GM,ZI,GD_".Vehicle.Text")="@@MEDVEHICLETEXT@@"
    88  . ;S GC(GM,ZI,"FullfillmentInstructions.Text")=""
    89  . ;S GC(GM,ZI,"IDs.ID")="@@MEDRXNO@@"
    90  . ;S GC(GM,ZI,"IDs.Type.Text")="@@MEDRXNOTXT@@"
    91  . ;S GC(GM,ZI,"PatientInstructions.Instruction.Text")="@@MEDPTINSTRUCTIONS@@"
    92  . ;S GC(GM,ZI,"Product.BrandName.Text")="@@MEDBRANDNAMETEXT@@"
    93  . S GC(GM,ZI,"Product.Concentration.Units.Unit")=$G(@GA@("doses.dose@units"))
    94  . S GC(GM,ZI,"Product.Concentration.Value")=$G(@GA@("doses.dose@dose"))
    95  . S GC(GM,ZI,"Product.Form.Text")=$G(@GA@("form@value"))
    96  . N GV S GV=$G(@GA@("products.product.vaProduct@vuid"))
    97  . N GR S GR=$$RXNCUI3^C0PLKUP(GV)
    98  . S GC(GM,ZI,"Product.ProductName.Code.CodingSystem")=$S(GR:"RxNorm",1:"VUID")
    99  . S GC(GM,ZI,"Product.ProductName.Code.Value")=$S(GR:GR,1:GV)
    100  . S GC(GM,ZI,"Product.ProductName.Code.Version")="08AB_081201F"
    101  . S GC(GM,ZI,"Product.ProductName.Text")=$G(@GA@("name@value"))
    102  . S GC(GM,ZI,"Product.Strength.Units.Unit")=$G(@GA@("doses.dose@units"))
    103  . S GC(GM,ZI,"Product.Strength.Value")=$G(@GA@("doses.dose@dose"))
    104  . ;S GC(GM,ZI,"Quantity.Units.Unit")="@@MEDQUANTITYUNIT@@"
    105  . ;S GC(GM,ZI,"Quantity.Value")="@@MEDQUANTITYVALUE@@"
    106  . ;S GC(GM,ZI,"Refills.Refill.Number")="@@MEDRFNO@@"
    107  . N GDUZ S GDUZ=$G(@GA@("orderingProvider@code")) ;PROVIDER DUZ
    108  . S GC(GM,ZI,"Source.Actor.ActorID")="PROVIDER_"_GDUZ
    109  . S GC(GM,ZI,"Status.Text")=$G(@GA@("status@value"))
    110  . S GC(GM,ZI,"Type.Text")="Medication"
    111  N C0CDOCID
    112  S C0CDOCID=$$DOMI^C0CDOM("GC",,"Medications") ; insert to dom
    113  D OUTXML^C0CDOM(MEDOUTXML,C0CDOCID,1) ; render the xml
    114  N ZSIZE S ZSIZE=$O(@MEDOUTXML@(""),-1)
    115  S @MEDOUTXML@(0)=ZSIZE ; RETURN STATUS IS NUMBER OF LINES OF XML
    116  W !,MEDOUTXML
    117  ;ZWR GN
    118  ;ZWR GC
    119  ;B
    120  Q
    121  ;
     2        ;;1.0;C0C;;May 19, 2009;Build 1
     3        ; Copyright 2008,2009 George Lilly, University of Minnesota and Sam Habiel.
     4        ; Licensed under the terms of the GNU General Public License.
     5        ; See attached copy of the License.
     6        ;
     7        ; This program is free software; you can redistribute it and/or modify
     8        ; it under the terms of the GNU General Public License as published by
     9        ; the Free Software Foundation; either version 2 of the License, or
     10        ; (at your option) any later version.
     11        ;
     12        ; This program is distributed in the hope that it will be useful,
     13        ; but WITHOUT ANY WARRANTY; without even the implied warranty of
     14        ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     15        ; GNU General Public License for more details.
     16        ;
     17        ; You should have received a copy of the GNU General Public License along
     18        ; with this program; if not, write to the Free Software Foundation, Inc.,
     19        ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     20        ;
     21        ; --Revision History
     22        ; July 2008 - Initial Version/GPL
     23        ; July 2008 - March 2009 various revisions
     24        ; March 2009 - Reconstruction of routine as driver for other med routines/SMH
     25        ; June 2011 - Redone to support all meds using the FOIA NHIN routines/gpl
     26        ;
     27        Q
     28        ;
     29        ; THIS VERSION IS DEPRECATED BECAUSE IT DOES NOT GENEREATE XML IN
     30        ; THE RIGHT ORDER... AND IT HAS TO BE IN THE RIGHT ORDER... :(
     31        ; GPL
     32        ;
     33EXTRACT(MEDXML,DFN,MEDOUTXML)   ; Private; Extract medications into provided XML template
     34        ; DFN passed by reference
     35        ; MEDXML and MEDOUTXML are passed by Name
     36        ; MEDXML is the input template
     37        ; MEDOUTXML is the output template
     38        ; Both of them refer to ^TMP globals where the XML documents are stored
     39        ;
     40        N GN
     41        D EN^C0CNHIN(.GN,DFN,"MED;",1) ; RETRIEVE NHIN ARRAY OF MEDS
     42        ; this call uses GET^NHINV to retrieve xml of the meds and then
     43        ; parses with MXML and uses DOMO^C0CDOM to extract an NHIN array
     44        ;
     45        ; we now create an NHIN Array of the Meds section of the CCR
     46        ;
     47        N ZI S ZI=""
     48        F  S ZI=$O(GN("med",ZI)) Q:ZI=""  D  ; for each med
     49        . N GA S GA=$NA(GN("med",ZI))
     50        . N GM S GM="Medication" ; to keep the lines shorter
     51        . S GC(GM,ZI,"CCRDataObjectID")="MED_"_ZI
     52        . N ZD,ZD2 S ZD=$G(@GA@("ordered@value")) ; FILEMAN DATE
     53        . I ZD="" S ZD=$G(@GA@("start@value")) ; for inpatient meds
     54        . S ZD2=$$FMDTOUTC^C0CUTIL(ZD,"DT")
     55        . S GC(GM,ZI,"DateTime[1].ExactDateTime")=ZD2
     56        . S GC(GM,ZI,"DateTime[1].Type.Text")="Documented Date"
     57        . ;S GC(GM,ZI,"DateTime[2].ExactDateTime")=""
     58        . ;S GC(GM,ZI,"DateTime[2].Type.Text")=""
     59        . N GSIG S GSIG=$G(@GA@("sig"))
     60        . I GSIG["|" S GSIG=$P(GSIG,"|",2) ; eRx has name of drug separated by |
     61        . S GC(GM,ZI,"Description.Text")=GSIG
     62        . N GD S GD="Directions.Direction" ; MAKING THE STRINGS SHORTER
     63        . ;S GC(GM,ZI,GD_".DeliveryMethod.Text")="@@MEDDELIVERYMETHOD@@"
     64        . ;S GC(GM,ZI,GD_".Description.Text")=""
     65        . ;S GC(GM,ZI,GD_".DirectionSequenceModifier")="@@MEDDIRSEQ@@"
     66        . ;S GC(GM,ZI,GD_".Dose.Rate.Units.Unit")="@@MEDRATEUNIT@@"
     67        . ;S GC(GM,ZI,GD_".Dose.Rate.Value")="@@MEDRATEVALUE@@"
     68        . ;S GC(GM,ZI,GD_".Dose.Units.Unit")="@@MEDDOSEUNIT@@"
     69        . ;S GC(GM,ZI,GD_".Dose.Value")="@@MEDDOSEVALUE@@"
     70        . ;S GC(GM,ZI,GD_".DoseIndicator.Text")="@@MEDDOSEINDICATOR@@"
     71        . ;S GC(GM,ZI,GD_".Duration.Units.Unit")="@@MEDDURATIONUNIT@@"
     72        . ;S GC(GM,ZI,GD_".Duration.Value")="@@MEDDURATIONVALUE@@"
     73        . ;S GC(GM,ZI,GD_".Frequency.Value")="@@MEDFREQUENCYVALUE@@"
     74        . ;S GC(GM,ZI,GD_".Indication.PRNFlag.Text")="@@MEDPRNFLAG@@"
     75        . ;S GC(GM,ZI,GD_".Indication.Problem.CCRDataObjectID")=""
     76        . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Code.CodingSystem")=""
     77        . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Code.Value")=""
     78        . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Code.Version")=""
     79        . ;S GC(GM,ZI,GD_".Indication.Problem.Description.Text")=""
     80        . ;S GC(GM,ZI,GD_".Indication.Problem.Source.Actor.ActorID")=""
     81        . ;S GC(GM,ZI,GD_".Indication.Problem.Type.Text")=""
     82        . ;S GC(GM,ZI,GD_".Interval.Units.Unit")="@@MEDINTERVALUNIT@@"
     83        . ;S GC(GM,ZI,GD_".Interval.Value")="@@MEDINTERVALVALUE@@"
     84        . ;S GC(GM,ZI,GD_".MultipleDirectionModifier.Text")="@@MEDMULDIRMOD@@"
     85        . S GC(GM,ZI,GD_".Route.Text")=$G(@GA@("doses.dose@route"))
     86        . ;S GC(GM,ZI,GD_".StopIndicator.Text")="@@MEDSTOPINDICATOR@@"
     87        . ;S GC(GM,ZI,GD_".Vehicle.Text")="@@MEDVEHICLETEXT@@"
     88        . ;S GC(GM,ZI,"FullfillmentInstructions.Text")=""
     89        . ;S GC(GM,ZI,"IDs.ID")="@@MEDRXNO@@"
     90        . ;S GC(GM,ZI,"IDs.Type.Text")="@@MEDRXNOTXT@@"
     91        . ;S GC(GM,ZI,"PatientInstructions.Instruction.Text")="@@MEDPTINSTRUCTIONS@@"
     92        . ;S GC(GM,ZI,"Product.BrandName.Text")="@@MEDBRANDNAMETEXT@@"
     93        . S GC(GM,ZI,"Product.Concentration.Units.Unit")=$G(@GA@("doses.dose@units"))
     94        . S GC(GM,ZI,"Product.Concentration.Value")=$G(@GA@("doses.dose@dose"))
     95        . S GC(GM,ZI,"Product.Form.Text")=$G(@GA@("form@value"))
     96        . N GV S GV=$G(@GA@("products.product.vaProduct@vuid"))
     97        . N GR S GR=$$RXNCUI3^C0PLKUP(GV)
     98        . S GC(GM,ZI,"Product.ProductName.Code.CodingSystem")=$S(GR:"RxNorm",1:"VUID")
     99        . S GC(GM,ZI,"Product.ProductName.Code.Value")=$S(GR:GR,1:GV)
     100        . S GC(GM,ZI,"Product.ProductName.Code.Version")="08AB_081201F"
     101        . S GC(GM,ZI,"Product.ProductName.Text")=$G(@GA@("name@value"))
     102        . S GC(GM,ZI,"Product.Strength.Units.Unit")=$G(@GA@("doses.dose@units"))
     103        . S GC(GM,ZI,"Product.Strength.Value")=$G(@GA@("doses.dose@dose"))
     104        . ;S GC(GM,ZI,"Quantity.Units.Unit")="@@MEDQUANTITYUNIT@@"
     105        . ;S GC(GM,ZI,"Quantity.Value")="@@MEDQUANTITYVALUE@@"
     106        . ;S GC(GM,ZI,"Refills.Refill.Number")="@@MEDRFNO@@"
     107        . N GDUZ S GDUZ=$G(@GA@("orderingProvider@code")) ;PROVIDER DUZ
     108        . S GC(GM,ZI,"Source.Actor.ActorID")="PROVIDER_"_GDUZ
     109        . S GC(GM,ZI,"Status.Text")=$G(@GA@("status@value"))
     110        . S GC(GM,ZI,"Type.Text")="Medication"
     111        N C0CDOCID
     112        S C0CDOCID=$$DOMI^C0CDOM("GC",,"Medications") ; insert to dom
     113        D OUTXML^C0CDOM(MEDOUTXML,C0CDOCID,1) ; render the xml
     114        N ZSIZE S ZSIZE=$O(@MEDOUTXML@(""),-1)
     115        S @MEDOUTXML@(0)=ZSIZE ; RETURN STATUS IS NUMBER OF LINES OF XML
     116        W !,MEDOUTXML
     117        ;ZWR GN
     118        ;ZWR GC
     119        ;B
     120        Q
     121        ;
  • ccr/branches/ohum/p/C0CNMED4.m

    r1332 r1333  
    1 C0CMED4         ; WV/CCDCCR/SMH/gpl - CCR/CCD PROCESSING FOR MEDICATIONS - Inpatient Meds/Unit Dose ;10/13/08
    2  ;;0.1;CCDCCR;;;
    3  ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
    4  ; General Public License See attached copy of the License.
    5  ;
    6  ; This program is free software; you can redistribute it and/or modify
    7  ; it under the terms of the GNU General Public License as published by
    8  ; the Free Software Foundation; either version 2 of the License, or
    9  ; (at your option) any later version.
    10  ;
    11  ; This program is distributed in the hope that it will be useful,
    12  ; but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ; GNU General Public License for more details.
    15  ;
    16  ; You should have received a copy of the GNU General Public License along
    17  ; with this program; if not, write to the Free Software Foundation, Inc.,
    18  ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  W "NO ENTRY FROM TOP",!
    21  Q
    22  ;
    23 EXTRACT(MINXML,DFN,OUTXML,MEDCOUNT) ; EXTRACT MEDICATIONS INTO PROVIDED XML TEMPLATE
    24  ;
    25  ; this routine has be adapted to retrieve meds from GET^NHINV by gpl 6/2011
    26  ;
    27  ; MINXML is the Input XML Template, passed by name
    28  ; DFN is Patient IEN
    29  ; OUTXML is the resultant XML.
    30  ;
    31  ; MEDS is return array from API.
    32  ; MED is holds each array element from MEDS, one medicine
    33  ; MAP is a mapping variable map (store result) for each med
    34  ;
    35  ; Inpatient Meds will be extracted using this routine and and the one following.
    36  ; Inpatient Meds Unit Dose is going to be C0CMED4
    37  ; Inpatient Meds IVs is going to be C0CMED5
    38  ;
    39  ; We will use two Pharmacy ReEnginnering API's:
    40  ; PSS431^PSS55(DFN,PO,PSDATE,PEDATE,LIST) - provides most info
    41  ; PSS432^PSS55(DFN,PO,LIST) - provides schedule info
    42  ; For more information, see the PRE documentation at:
    43  ; http://www.va.gov/vdl/documents/Clinical/Pharm-Inpatient_Med/phar_1_api_r0807.pdf
    44  ;
    45  ; Med data is stored in Unit Dose multiple of file 55, pharmacy patient
    46  ;
    47  N MEDS,MAP
    48  ;K ^TMP($J)
    49  ;D PSS431^PSS55(DFN,,,,"UD") ; Output is in ^TMP($J,"UD",*)
    50  ;I ^TMP($J,"UD",0)'>0 S @OUTXML@(0)=0 QUIT  ; No Meds - Quit
    51  ;; Otherwise, we go on...
    52  D EN^C0CNHIN(.MEDS,DFN,"MED;") ; gpl get the NHIN Array of meds
    53  I '$D(MEDS) Q  ; no meds
    54  N ZI S ZI=""
    55  N ZCOUNT S ZCOUNT=0
    56  F  S ZI=$O(MEDS("med",ZI)) Q:ZI=""  D  ; for each returned med
    57  . I $G(MEDS("med",ZI,"vaType@value"))="I" S ZCOUNT=ZCOUNT+1
    58  IF ZCOUNT=0 Q  ; no inpatient meds
    59  ;M MEDS=^TMP($J,"UD")
    60  I DEBUG ZWR MEDS
    61  S MEDMAP=$NA(^TMP("C0CCCR",$J,"MEDMAP"))
    62  ;N MEDCOUNT S MEDCOUNT=@MEDMAP@(0) ; We already have meds in the array
    63  N I S I=0
    64  F  S I=$O(MEDS("med",I)) Q:'I  D  ; For each medication
    65  . N MED M MED=MEDS("med",I)
    66  . I $G(MED("vaType@value"))'="I" Q  ; not inpatient
    67  . S MEDCOUNT=MEDCOUNT+1
    68  . S @MEDMAP@(0)=MEDCOUNT ; Update MedMap array counter
    69  . S MAP=$NA(^TMP("C0CCCR",$J,"MEDMAP",MEDCOUNT))
    70  . ;N RXIEN S RXIEN=MED(.01) ; Order Number
    71  . N RXIEN S RXIEN=$G(MED("orderID@value")) ; ien of the med
    72  . I DEBUG W "RXIEN IS ",RXIEN,!
    73  . I DEBUG W "MAP= ",MAP,!
    74  . S @MAP@("MEDOBJECTID")="MED_INPATIENT_UD"_RXIEN
    75  . S @MAP@("MEDISSUEDATETXT")="Order Date"
    76  . ;S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($P(MED(27),U),"DT")
    77  . S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($G(MED("start@value")),"DT")
    78  . S @MAP@("MEDLASTFILLDATETXT")="" ; For Outpatient
    79  . S @MAP@("MEDLASTFILLDATE")="" ; For Outpatient
    80  . S @MAP@("MEDRXNOTXT")="" ; For Outpatient
    81  . S @MAP@("MEDRXNO")="" ; For Outpatient
    82  . S @MAP@("MEDTYPETEXT")="Medication"
    83  . S @MAP@("MEDDETAILUNADORNED")=""  ; Leave blank, field has its uses
    84  . ;S @MAP@("MEDSTATUSTEXT")="ACTIVE"
    85  . N C0CMST S C0CMST=$G(MED("vaStatus@value")) ; need to filter status
    86  . I C0CMST="EXPIRED" S C0CMST="Prior History No Longer Active"
    87  . I C0CMST="ACTIVE" S C0CMST="Active" ;
    88  . S @MAP@("MEDSTATUSTEXT")=C0CMST
    89  . ;S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$P(MED(1),U)
    90  . S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$G(MED("orderingProvider@code"))
    91  . ;S @MAP@("MEDPRODUCTNAMETEXT")=MED("DDRUG",1,.01)
    92  . S @MAP@("MEDPRODUCTNAMETEXT")=$G(MED("name@value"))
    93  . ; NDC is field 31 in the drug file.
    94  . ; The actual drug entry in the drug file is not necessarily supplied.
    95  . ; It' node 1, internal form.
    96  . ;N MEDIEN S MEDIEN=MED(1,"I")
    97  . ;S @MAP@("MEDPRODUCTNAMECODEVALUE")=$S($L(MEDIEN):$$GET1^DIQ(50,MEDIEN,31,"E"),1:"")
    98  . N ZVUID S ZVUID=$G(MED("products.product.vaProduct@vuid")) ; VUID
    99  . N ZC,ZCD,ZCDS,ZCDSV ; CODE,CODE SYSTEM,CODE VERSION
    100  . D  ;
    101  . . S ZC=$$CODE^C0CUTIL(ZVUID)
    102  . . S ZCD=$P(ZC,"^",1) ; CODE TO USE
    103  . . S ZCDS=$P(ZC,"^",2) ; CODING SYSTEM - RXNORM OR VUID
    104  . . S ZCDSV=$P(ZC,"^",3) ; CODING SYSTEM VERSION
    105  . ;N ZRXNORM S ZRXNORM=""
    106  . ;S ZRXNORM=$$RXNCUI3^C0PLKUP(ZVUID)
    107  . S @MAP@("MEDPRODUCTNAMECODEVALUE")=ZCD
    108  . ;S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=$S($L(MEDIEN):"NDC",1:"")
    109  . S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=ZCDS
    110  . ;S @MAP@("MEDPRODUCTNAMECODEVERSION")=$S($L(MEDIEN):"none",1:"")
    111  . S @MAP@("MEDPRODUCTNAMECODEVERSION")=ZCDSV
    112  . S @MAP@("MEDBRANDNAMETEXT")=""
    113  . S @MAP@("MEDPRODUCTNAMETEXT")=$G(MED("name@value"))_" "_ZCDS_": "_ZCD
    114  . ;I $L(MEDIEN) D DOSE^PSS50(MEDIEN,,,,,"DOSE")
    115  . ;I $L(MEDIEN) N DOSEDATA M DOSEDATA=^TMP($J,"DOSE",MEDIEN)
    116  . ;S @MAP@("MEDSTRENGTHVALUE")=$S($L(MEDIEN):DOSEDATA(901),1:"")
    117  . S @MAP@("MEDSTRENGTHVALUE")=$G(MED("doses.dose@dose"))
    118  . ;S @MAP@("MEDSTRENGTHUNIT")=$S($P(DOSEDATA(902),U,2),1:"")
    119  . S @MAP@("MEDSTRENGTHUNIT")=$G(MED("doses.dose@units"))
    120  . ; Units, concentration, etc, come from another call
    121  . ; $$CPRS^PSNAPIS which returns dosage-form^va class^strengh^unit
    122  . ; This call takes nodes 1 and 3 of ^PSDRUG(D0,"ND") as parameters
    123  . ; NDF Entry IEN, and VA Product Name
    124  . ; These can be obtained using NDF^PSS50 (IEN,,,,,"SUBSCRIPT")
    125  . ; Documented in the same manual.
    126  . ;N NDFDATA,CONCDATA
    127  . ;I $L(MEDIEN) D
    128  . ;. D NDF^PSS50(MEDIEN,,,,,"CONC")
    129  . ;. M NDFDATA=^TMP($J,"CONC",MEDIEN)
    130  . ;. N NDFIEN S NDFIEN=$P(NDFDATA(20),U)
    131  . ;. N VAPROD S VAPROD=$P(NDFDATA(22),U)
    132  . ;. ; If a drug was not matched to NDF, then the NDFIEN is gonna be ""
    133  . ;. ; and this will crash the call. So...
    134  . ;. I NDFIEN="" S CONCDATA=""
    135  . ;. E  S CONCDATA=$$CPRS^PSNAPIS(NDFIEN,VAPROD)
    136  . ;E  S (NDFDATA,CONCDATA)="" ; This line is defensive programming to prevent undef errors.
    137  . ;S @MAP@("MEDFORMTEXT")=$S($L(MEDIEN):$P(CONCDATA,U,1),1:"")
    138  . S @MAP@("MEDFORMTEXT")=$G(MED("form@value"))
    139  . ;S @MAP@("MEDCONCVALUE")=$S($L(MEDIEN):$P(CONCDATA,U,3),1:"")
    140  . S @MAP@("MEDCONCVALUE")=$G(MED("doses.dose@dose"))
    141  . ;S @MAP@("MEDCONCUNIT")=$S($L(MEDIEN):$P(CONCDATA,U,4),1:"")
    142  . S @MAP@("MEDCONCUNIT")=$G(MED("doses.does@units"))
    143  . ;S @MAP@("MEDQUANTITYVALUE")=""  ; not provided for in Non-VA meds.
    144  . S @MAP@("MEDQUANTITYVALUE")=$G(MED("doses.dose@unitsPerDose")) ;
    145  . ; Oddly, there is no easy place to find the dispense unit.
    146  . ; It's not included in the original call, so we have to go to the drug file.
    147  . ; That would be DATA^PSS50(IEN,,,,,"SUBSCRIPT")
    148  . ; Node 14.5 is the Dispense Unit
    149  . ;I $L(MEDIEN) D
    150  . ;. D DATA^PSS50(MEDIEN,,,,,"QTY")
    151  . ;. N QTYDATA M QTYDATA=^TMP($J,"QTY",MEDIEN)
    152  . ;. S @MAP@("MEDQUANTITYUNIT")=QTYDATA(14.5)
    153  . ;E  S @MAP@("MEDQUANTITYUNIT")=""
    154  . S @MAP@("MEDQUANTITYUNIT")=$G(MED("dose.dose@unitsPerDose"))
    155  . ;
    156  . ; --- START OF DIRECTIONS ---
    157  . ; Dosage is field 2, route is 3, schedule is 4
    158  . ; These are all free text fields, and don't point to any files
    159  . ; For that reason, I will use the field I never used before:
    160  . ; MEDDIRECTIONDESCRIPTIONTEXT
    161  . ;S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONDESCRIPTIONTEXT")=MED(2,"E")_" "_MED(3,"E")_" "_MED(4,"E")
    162  . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONDESCRIPTIONTEXT")=$G(MED("sig"))
    163  . ; $G(MED("products.product.vaProduct@name"))
    164  . S @MAP@("M","DIRECTIONS",1,"MEDDOSEINDICATOR")="4"  ; means look in description text. See E2369-05.
    165  . S @MAP@("M","DIRECTIONS",1,"MEDDELIVERYMETHOD")=""
    166  . S @MAP@("M","DIRECTIONS",1,"MEDDOSEVALUE")=""
    167  . S @MAP@("M","DIRECTIONS",1,"MEDDOSEUNIT")=""
    168  . S @MAP@("M","DIRECTIONS",1,"MEDRATEVALUE")="" 
    169  . S @MAP@("M","DIRECTIONS",1,"MEDRATEUNIT")="" 
    170  . S @MAP@("M","DIRECTIONS",1,"MEDVEHICLETEXT")="" 
    171  . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONROUTETEXT")=""
    172  . S @MAP@("M","DIRECTIONS",1,"MEDFREQUENCYVALUE")=""
    173  . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALVALUE")=""
    174  . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALUNIT")=""
    175  . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONVALUE")=""
    176  . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONUNIT")=""
    177  . S @MAP@("M","DIRECTIONS",1,"MEDPRNFLAG")=""
    178  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMOBJECTID")=""
    179  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMTYPETXT")=""
    180  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMDESCRIPTION")=""
    181  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODEVALUE")=""
    182  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGSYSTEM")=""
    183  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGVERSION")=""
    184  . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMSOURCEACTORID")=""
    185  . S @MAP@("M","DIRECTIONS",1,"MEDSTOPINDICATOR")=""
    186  . S @MAP@("M","DIRECTIONS",1,"MEDDIRSEQ")=""
    187  . S @MAP@("M","DIRECTIONS",1,"MEDMULDIRMOD")=""
    188  . ;
    189  . ; --- END OF DIRECTIONS ---
    190  . ;
    191  . ; S @MAP@("MEDPTINSTRUCTIONS","F")="52.41^105"
    192  . ;S @MAP@("MEDPTINSTRUCTIONS")=MED(10,1) ; WP Field
    193  . S @MAP@("MEDPTINSTRUCTIONS")=""
    194  . ;S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=MED(14,1) ; WP Field
    195  . S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=""
    196  . S @MAP@("MEDRFNO")=""
    197  . N RESULT S RESULT=$NA(^TMP("C0CCCR",$J,"MAPPED"))
    198  . K @RESULT
    199  . D MAP^C0CXPATH(MINXML,MAP,RESULT)
    200  . ; D PARY^C0CXPATH(RESULT)
    201  . ; MAPPING DIRECTIONS
    202  . N MEDDIR1,DIRXML1 S DIRXML1="MEDDIR1" ; VARIABLE AND NAME VARIABLE TEMPLATE
    203  . N MEDDIR2,DIRXML2 S DIRXML2="MEDDIR2" ; VARIABLE AND NAME VARIABLE RESULT
    204  . D QUERY^C0CXPATH(MINXML,"//Medications/Medication/Directions",DIRXML1)
    205  . D REPLACE^C0CXPATH(RESULT,"","//Medications/Medication/Directions")
    206  . ; N MDZ1,MDZNA
    207  . N DIRCNT S DIRCNT=1 ; THERE ARE ALWAYS DIRECTIONS
    208  . I DIRCNT>0 D  ; IF THERE ARE DIRCTIONS
    209  . . F MDZ1=1:1:DIRCNT  D  ; FOR EACH DIRECTION
    210  . . . S MDZNA=$NA(@MAP@("M","DIRECTIONS",MDZ1))
    211  . . . D MAP^C0CXPATH(DIRXML1,MDZNA,DIRXML2)
    212  . . . D INSERT^C0CXPATH(RESULT,DIRXML2,"//Medications/Medication")
    213  . D:MEDCOUNT=1 CP^C0CXPATH(RESULT,OUTXML) ; First one is a copy
    214  . D:MEDCOUNT>1 INSINNER^C0CXPATH(OUTXML,RESULT) ; AFTER THE FIRST, INSERT INNER XML
    215  N MEDTMP,MEDI
    216  D MISSING^C0CXPATH(OUTXML,"MEDTMP") ; SEARCH XML FOR MISSING VARS
    217  I MEDTMP(0)>0 D  ; IF THERE ARE MISSING VARS - MARKED AS @@X@@
    218  . W "MEDICATION MISSING ",!
    219  . F MEDI=1:1:MEDTMP(0) W MEDTMP(MEDI),!
    220  Q
    221  ;
     1C0CMED4         ; WV/CCDCCR/SMH/gpl - CCR/CCD PROCESSING FOR MEDICATIONS - Inpatient Meds/Unit Dose ;10/13/08
     2        ;;0.1;CCDCCR;;;Build 1
     3        ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
     4        ; General Public License See attached copy of the License.
     5        ;
     6        ; This program is free software; you can redistribute it and/or modify
     7        ; it under the terms of the GNU General Public License as published by
     8        ; the Free Software Foundation; either version 2 of the License, or
     9        ; (at your option) any later version.
     10        ;
     11        ; This program is distributed in the hope that it will be useful,
     12        ; but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ; GNU General Public License for more details.
     15        ;
     16        ; You should have received a copy of the GNU General Public License along
     17        ; with this program; if not, write to the Free Software Foundation, Inc.,
     18        ; 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        W "NO ENTRY FROM TOP",!
     21        Q
     22        ;
     23EXTRACT(MINXML,DFN,OUTXML,MEDCOUNT)     ; EXTRACT MEDICATIONS INTO PROVIDED XML TEMPLATE
     24        ;
     25        ; this routine has be adapted to retrieve meds from GET^NHINV by gpl 6/2011
     26        ;
     27        ; MINXML is the Input XML Template, passed by name
     28        ; DFN is Patient IEN
     29        ; OUTXML is the resultant XML.
     30        ;
     31        ; MEDS is return array from API.
     32        ; MED is holds each array element from MEDS, one medicine
     33        ; MAP is a mapping variable map (store result) for each med
     34        ;
     35        ; Inpatient Meds will be extracted using this routine and and the one following.
     36        ; Inpatient Meds Unit Dose is going to be C0CMED4
     37        ; Inpatient Meds IVs is going to be C0CMED5
     38        ;
     39        ; We will use two Pharmacy ReEnginnering API's:
     40        ; PSS431^PSS55(DFN,PO,PSDATE,PEDATE,LIST) - provides most info
     41        ; PSS432^PSS55(DFN,PO,LIST) - provides schedule info
     42        ; For more information, see the PRE documentation at:
     43        ; http://www.va.gov/vdl/documents/Clinical/Pharm-Inpatient_Med/phar_1_api_r0807.pdf
     44        ;
     45        ; Med data is stored in Unit Dose multiple of file 55, pharmacy patient
     46        ;
     47        N MEDS,MAP
     48        ;K ^TMP($J)
     49        ;D PSS431^PSS55(DFN,,,,"UD") ; Output is in ^TMP($J,"UD",*)
     50        ;I ^TMP($J,"UD",0)'>0 S @OUTXML@(0)=0 QUIT  ; No Meds - Quit
     51        ;; Otherwise, we go on...
     52        D EN^C0CNHIN(.MEDS,DFN,"MED;") ; gpl get the NHIN Array of meds
     53        I '$D(MEDS) Q  ; no meds
     54        N ZI S ZI=""
     55        N ZCOUNT S ZCOUNT=0
     56        F  S ZI=$O(MEDS("med",ZI)) Q:ZI=""  D  ; for each returned med
     57        . I $G(MEDS("med",ZI,"vaType@value"))="I" S ZCOUNT=ZCOUNT+1
     58        IF ZCOUNT=0 Q  ; no inpatient meds
     59        ;M MEDS=^TMP($J,"UD")
     60        I DEBUG ZWR MEDS
     61        S MEDMAP=$NA(^TMP("C0CCCR",$J,"MEDMAP"))
     62        ;N MEDCOUNT S MEDCOUNT=@MEDMAP@(0) ; We already have meds in the array
     63        N I S I=0
     64        F  S I=$O(MEDS("med",I)) Q:'I  D  ; For each medication
     65        . N MED M MED=MEDS("med",I)
     66        . I $G(MED("vaType@value"))'="I" Q  ; not inpatient
     67        . S MEDCOUNT=MEDCOUNT+1
     68        . S @MEDMAP@(0)=MEDCOUNT ; Update MedMap array counter
     69        . S MAP=$NA(^TMP("C0CCCR",$J,"MEDMAP",MEDCOUNT))
     70        . ;N RXIEN S RXIEN=MED(.01) ; Order Number
     71        . N RXIEN S RXIEN=$G(MED("orderID@value")) ; ien of the med
     72        . I DEBUG W "RXIEN IS ",RXIEN,!
     73        . I DEBUG W "MAP= ",MAP,!
     74        . S @MAP@("MEDOBJECTID")="MED_INPATIENT_UD"_RXIEN
     75        . S @MAP@("MEDISSUEDATETXT")="Order Date"
     76        . ;S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($P(MED(27),U),"DT")
     77        . S @MAP@("MEDISSUEDATE")=$$FMDTOUTC^C0CUTIL($G(MED("start@value")),"DT")
     78        . S @MAP@("MEDLASTFILLDATETXT")="" ; For Outpatient
     79        . S @MAP@("MEDLASTFILLDATE")="" ; For Outpatient
     80        . S @MAP@("MEDRXNOTXT")="" ; For Outpatient
     81        . S @MAP@("MEDRXNO")="" ; For Outpatient
     82        . S @MAP@("MEDTYPETEXT")="Medication"
     83        . S @MAP@("MEDDETAILUNADORNED")=""  ; Leave blank, field has its uses
     84        . ;S @MAP@("MEDSTATUSTEXT")="ACTIVE"
     85        . N C0CMST S C0CMST=$G(MED("vaStatus@value")) ; need to filter status
     86        . I C0CMST="EXPIRED" S C0CMST="Prior History No Longer Active"
     87        . I C0CMST="ACTIVE" S C0CMST="Active" ;
     88        . S @MAP@("MEDSTATUSTEXT")=C0CMST
     89        . ;S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$P(MED(1),U)
     90        . S @MAP@("MEDSOURCEACTORID")="ACTORPROVIDER_"_$G(MED("orderingProvider@code"))
     91        . ;S @MAP@("MEDPRODUCTNAMETEXT")=MED("DDRUG",1,.01)
     92        . S @MAP@("MEDPRODUCTNAMETEXT")=$G(MED("name@value"))
     93        . ; NDC is field 31 in the drug file.
     94        . ; The actual drug entry in the drug file is not necessarily supplied.
     95        . ; It' node 1, internal form.
     96        . ;N MEDIEN S MEDIEN=MED(1,"I")
     97        . ;S @MAP@("MEDPRODUCTNAMECODEVALUE")=$S($L(MEDIEN):$$GET1^DIQ(50,MEDIEN,31,"E"),1:"")
     98        . N ZVUID S ZVUID=$G(MED("products.product.vaProduct@vuid")) ; VUID
     99        . N ZC,ZCD,ZCDS,ZCDSV ; CODE,CODE SYSTEM,CODE VERSION
     100        . D  ;
     101        . . S ZC=$$CODE^C0CUTIL(ZVUID)
     102        . . S ZCD=$P(ZC,"^",1) ; CODE TO USE
     103        . . S ZCDS=$P(ZC,"^",2) ; CODING SYSTEM - RXNORM OR VUID
     104        . . S ZCDSV=$P(ZC,"^",3) ; CODING SYSTEM VERSION
     105        . ;N ZRXNORM S ZRXNORM=""
     106        . ;S ZRXNORM=$$RXNCUI3^C0PLKUP(ZVUID)
     107        . S @MAP@("MEDPRODUCTNAMECODEVALUE")=ZCD
     108        . ;S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=$S($L(MEDIEN):"NDC",1:"")
     109        . S @MAP@("MEDPRODUCTNAMECODINGINGSYSTEM")=ZCDS
     110        . ;S @MAP@("MEDPRODUCTNAMECODEVERSION")=$S($L(MEDIEN):"none",1:"")
     111        . S @MAP@("MEDPRODUCTNAMECODEVERSION")=ZCDSV
     112        . S @MAP@("MEDBRANDNAMETEXT")=""
     113        . S @MAP@("MEDPRODUCTNAMETEXT")=$G(MED("name@value"))_" "_ZCDS_": "_ZCD
     114        . ;I $L(MEDIEN) D DOSE^PSS50(MEDIEN,,,,,"DOSE")
     115        . ;I $L(MEDIEN) N DOSEDATA M DOSEDATA=^TMP($J,"DOSE",MEDIEN)
     116        . ;S @MAP@("MEDSTRENGTHVALUE")=$S($L(MEDIEN):DOSEDATA(901),1:"")
     117        . S @MAP@("MEDSTRENGTHVALUE")=$G(MED("doses.dose@dose"))
     118        . ;S @MAP@("MEDSTRENGTHUNIT")=$S($P(DOSEDATA(902),U,2),1:"")
     119        . S @MAP@("MEDSTRENGTHUNIT")=$G(MED("doses.dose@units"))
     120        . ; Units, concentration, etc, come from another call
     121        . ; $$CPRS^PSNAPIS which returns dosage-form^va class^strengh^unit
     122        . ; This call takes nodes 1 and 3 of ^PSDRUG(D0,"ND") as parameters
     123        . ; NDF Entry IEN, and VA Product Name
     124        . ; These can be obtained using NDF^PSS50 (IEN,,,,,"SUBSCRIPT")
     125        . ; Documented in the same manual.
     126        . ;N NDFDATA,CONCDATA
     127        . ;I $L(MEDIEN) D
     128        . ;. D NDF^PSS50(MEDIEN,,,,,"CONC")
     129        . ;. M NDFDATA=^TMP($J,"CONC",MEDIEN)
     130        . ;. N NDFIEN S NDFIEN=$P(NDFDATA(20),U)
     131        . ;. N VAPROD S VAPROD=$P(NDFDATA(22),U)
     132        . ;. ; If a drug was not matched to NDF, then the NDFIEN is gonna be ""
     133        . ;. ; and this will crash the call. So...
     134        . ;. I NDFIEN="" S CONCDATA=""
     135        . ;. E  S CONCDATA=$$CPRS^PSNAPIS(NDFIEN,VAPROD)
     136        . ;E  S (NDFDATA,CONCDATA)="" ; This line is defensive programming to prevent undef errors.
     137        . ;S @MAP@("MEDFORMTEXT")=$S($L(MEDIEN):$P(CONCDATA,U,1),1:"")
     138        . S @MAP@("MEDFORMTEXT")=$G(MED("form@value"))
     139        . ;S @MAP@("MEDCONCVALUE")=$S($L(MEDIEN):$P(CONCDATA,U,3),1:"")
     140        . S @MAP@("MEDCONCVALUE")=$G(MED("doses.dose@dose"))
     141        . ;S @MAP@("MEDCONCUNIT")=$S($L(MEDIEN):$P(CONCDATA,U,4),1:"")
     142        . S @MAP@("MEDCONCUNIT")=$G(MED("doses.does@units"))
     143        . ;S @MAP@("MEDQUANTITYVALUE")=""  ; not provided for in Non-VA meds.
     144        . S @MAP@("MEDQUANTITYVALUE")=$G(MED("doses.dose@unitsPerDose")) ;
     145        . ; Oddly, there is no easy place to find the dispense unit.
     146        . ; It's not included in the original call, so we have to go to the drug file.
     147        . ; That would be DATA^PSS50(IEN,,,,,"SUBSCRIPT")
     148        . ; Node 14.5 is the Dispense Unit
     149        . ;I $L(MEDIEN) D
     150        . ;. D DATA^PSS50(MEDIEN,,,,,"QTY")
     151        . ;. N QTYDATA M QTYDATA=^TMP($J,"QTY",MEDIEN)
     152        . ;. S @MAP@("MEDQUANTITYUNIT")=QTYDATA(14.5)
     153        . ;E  S @MAP@("MEDQUANTITYUNIT")=""
     154        . S @MAP@("MEDQUANTITYUNIT")=$G(MED("dose.dose@unitsPerDose"))
     155        . ;
     156        . ; --- START OF DIRECTIONS ---
     157        . ; Dosage is field 2, route is 3, schedule is 4
     158        . ; These are all free text fields, and don't point to any files
     159        . ; For that reason, I will use the field I never used before:
     160        . ; MEDDIRECTIONDESCRIPTIONTEXT
     161        . ;S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONDESCRIPTIONTEXT")=MED(2,"E")_" "_MED(3,"E")_" "_MED(4,"E")
     162        . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONDESCRIPTIONTEXT")=$G(MED("sig"))
     163        . ; $G(MED("products.product.vaProduct@name"))
     164        . S @MAP@("M","DIRECTIONS",1,"MEDDOSEINDICATOR")="4"  ; means look in description text. See E2369-05.
     165        . S @MAP@("M","DIRECTIONS",1,"MEDDELIVERYMETHOD")=""
     166        . S @MAP@("M","DIRECTIONS",1,"MEDDOSEVALUE")=""
     167        . S @MAP@("M","DIRECTIONS",1,"MEDDOSEUNIT")=""
     168        . S @MAP@("M","DIRECTIONS",1,"MEDRATEVALUE")="" 
     169        . S @MAP@("M","DIRECTIONS",1,"MEDRATEUNIT")="" 
     170        . S @MAP@("M","DIRECTIONS",1,"MEDVEHICLETEXT")="" 
     171        . S @MAP@("M","DIRECTIONS",1,"MEDDIRECTIONROUTETEXT")=""
     172        . S @MAP@("M","DIRECTIONS",1,"MEDFREQUENCYVALUE")=""
     173        . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALVALUE")=""
     174        . S @MAP@("M","DIRECTIONS",1,"MEDINTERVALUNIT")=""
     175        . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONVALUE")=""
     176        . S @MAP@("M","DIRECTIONS",1,"MEDDURATIONUNIT")=""
     177        . S @MAP@("M","DIRECTIONS",1,"MEDPRNFLAG")=""
     178        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMOBJECTID")=""
     179        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMTYPETXT")=""
     180        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMDESCRIPTION")=""
     181        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODEVALUE")=""
     182        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGSYSTEM")=""
     183        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMCODINGVERSION")=""
     184        . S @MAP@("M","DIRECTIONS",1,"MEDPROBLEMSOURCEACTORID")=""
     185        . S @MAP@("M","DIRECTIONS",1,"MEDSTOPINDICATOR")=""
     186        . S @MAP@("M","DIRECTIONS",1,"MEDDIRSEQ")=""
     187        . S @MAP@("M","DIRECTIONS",1,"MEDMULDIRMOD")=""
     188        . ;
     189        . ; --- END OF DIRECTIONS ---
     190        . ;
     191        . ; S @MAP@("MEDPTINSTRUCTIONS","F")="52.41^105"
     192        . ;S @MAP@("MEDPTINSTRUCTIONS")=MED(10,1) ; WP Field
     193        . S @MAP@("MEDPTINSTRUCTIONS")=""
     194        . ;S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=MED(14,1) ; WP Field
     195        . S @MAP@("MEDFULLFILLMENTINSTRUCTIONS")=""
     196        . S @MAP@("MEDRFNO")=""
     197        . N RESULT S RESULT=$NA(^TMP("C0CCCR",$J,"MAPPED"))
     198        . K @RESULT
     199        . D MAP^C0CXPATH(MINXML,MAP,RESULT)
     200        . ; D PARY^C0CXPATH(RESULT)
     201        . ; MAPPING DIRECTIONS
     202        . N MEDDIR1,DIRXML1 S DIRXML1="MEDDIR1" ; VARIABLE AND NAME VARIABLE TEMPLATE
     203        . N MEDDIR2,DIRXML2 S DIRXML2="MEDDIR2" ; VARIABLE AND NAME VARIABLE RESULT
     204        . D QUERY^C0CXPATH(MINXML,"//Medications/Medication/Directions",DIRXML1)
     205        . D REPLACE^C0CXPATH(RESULT,"","//Medications/Medication/Directions")
     206        . ; N MDZ1,MDZNA
     207        . N DIRCNT S DIRCNT=1 ; THERE ARE ALWAYS DIRECTIONS
     208        . I DIRCNT>0 D  ; IF THERE ARE DIRCTIONS
     209        . . F MDZ1=1:1:DIRCNT  D  ; FOR EACH DIRECTION
     210        . . . S MDZNA=$NA(@MAP@("M","DIRECTIONS",MDZ1))
     211        . . . D MAP^C0CXPATH(DIRXML1,MDZNA,DIRXML2)
     212        . . . D INSERT^C0CXPATH(RESULT,DIRXML2,"//Medications/Medication")
     213        . D:MEDCOUNT=1 CP^C0CXPATH(RESULT,OUTXML) ; First one is a copy
     214        . D:MEDCOUNT>1 INSINNER^C0CXPATH(OUTXML,RESULT) ; AFTER THE FIRST, INSERT INNER XML
     215        N MEDTMP,MEDI
     216        D MISSING^C0CXPATH(OUTXML,"MEDTMP") ; SEARCH XML FOR MISSING VARS
     217        I MEDTMP(0)>0 D  ; IF THERE ARE MISSING VARS - MARKED AS @@X@@
     218        . W "MEDICATION MISSING ",!
     219        . F MEDI=1:1:MEDTMP(0) W MEDTMP(MEDI),!
     220        Q
     221        ;
  • ccr/branches/ohum/p/C0CORSLT.m

    r1332 r1333  
    1 C0CORSLT ; CCDCCR/GPL - CCR/CCD PROCESSING ADDITIONAL RESULTS ; 06/27/11
    2         ;;1.0;C0C;;Jan 21, 2010;Build 38
     1C0CORSLT        ; CCDCCR/GPL - CCR/CCD PROCESSING ADDITIONAL RESULTS ; 06/27/11
     2        ;;1.0;C0C;;Jan 21, 2010;Build 1
    33        ;Copyright 2011 George Lilly.
    44        ;Licensed under the terms of the GNU General Public License.
     
    2222        Q
    2323        ;
    24 EN(ZVARS,DFN) ; LOOKS FOR CCR RESULTS THAT ARE NOT LAB RESULTS AND ADDS
    25  ; THEM TO THE LAB VARIABLES ZVARS IS PASSED BY REFERENCE
    26  ; AN EXAMPLE IS EKG RESULTS THAT ARE FOUND IN NOTES AND CONSULTS
    27  ; THIS IS CREATED FOR MU CERTIFICATION BY GPL
    28  D ENTRY^C0CCPT(DFN,,,1) ; RETURNS ALL RESULTS IN VISIT LOCAL VARIABLE
    29  N ZN ; RESULT NUMBER
    30  S ZN=$O(@ZVARS@(""),-1) ; NEXT RESULT
    31  N ZI S ZI=""
    32  F  S ZI=$O(VISIT(ZI)) Q:ZI=""  D  ; FOR EACH VISIT
    33  . I $G(VISIT(ZI,"TEXT",1))["ECG DONE" D  ; GOT AN ECG
    34  . . S ZN=ZN+1 ; INCREMENT RESULT COUNT
    35  . . N ZDATE,ZPRV,ZTXT
    36  . . S ZDATE=$G(VISIT(ZI,"DATE",0)) ; DATE OF PROCEDURE
    37  . . S ZPRV=$P($G(VISIT(ZI,"PRV",2)),"^",1) ;PROVIDER
    38  . . S ZTXT=$P($G(VISIT(ZI,"TEXT",4)),"ECG RESULTS: ",2)
    39  . . S @ZVARS@(ZN,"RESULTASSESSMENTDATETIME")=$$FMDTOUTC^C0CUTIL(ZDATE,"DT")
    40  . . S @ZVARS@(ZN,"RESULTCODE")="34534-8"
    41  . . S @ZVARS@(ZN,"RESULTCODINGSYSTEM")="LOINC"
    42  . . S @ZVARS@(ZN,"RESULTDESCRIPTIONTEXT")="Electrocardiogram LOINC:34534-8"
    43  . . S @ZVARS@(ZN,"RESULTOBJECTID")="RESULT"_ZN
    44  . . S @ZVARS@(ZN,"RESULTSOURCEACTORID")="ACTORPROVIDER_"_ZPRV
    45  . . S @ZVARS@(ZN,"RESULTSTATUS")=""
    46  . . S @ZVARS@(ZN,"M","TEST",0)=1
    47  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTCODEVALUE")="34534-8"
    48  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTCODINGSYSTEM")="LOINC"
    49  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTDATETIME")=$$FMDTOUTC^C0CUTIL(ZDATE,"DT")
    50  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTDESCRIPTIONTEXT")="Electrocardiogram LOINC:34534-8"
    51  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTFLAG")=""
    52  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTNORMALDESCTEXT")=""
    53  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTNORMALSOURCEACTORID")="ACTORORGANIZATION_VASTANUM"
    54  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTOBJECTID")="RESULTTEST_ECG_"_ZN
    55  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTSOURCEACTORID")="ACTORPROVIDER"_ZPRV
    56  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTSTATUSTEXT")="F"
    57  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTUNITS")=""
    58  . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTVALUE")=ZTXT
    59  . . S @ZVARS@(0)=ZN ; UPDATE RESULTS COUNT
    60  Q
    61  ;
    62 OLD ; OLD CODE FOR OTHER WAYS OF DOING THE ECG
    63  ; FOR CERTIFICATION - SAVE EKG RESULTS gpl
    64  W !,"CPT=",ZCPT
    65  I ZCPT["93000" D  ; THIS IS AN EKG
    66  . D RNF1TO2^C0CRNF(C0CPRSLT,"ZRNF") ; SAVE FOR LABS
    67  . M ^GPL("RNF2")=@C0CPRSLT
    68  Q
    69  ;
     24EN(ZVARS,DFN)   ; LOOKS FOR CCR RESULTS THAT ARE NOT LAB RESULTS AND ADDS
     25        ; THEM TO THE LAB VARIABLES ZVARS IS PASSED BY REFERENCE
     26        ; AN EXAMPLE IS EKG RESULTS THAT ARE FOUND IN NOTES AND CONSULTS
     27        ; THIS IS CREATED FOR MU CERTIFICATION BY GPL
     28        D ENTRY^C0CCPT(DFN,,,1) ; RETURNS ALL RESULTS IN VISIT LOCAL VARIABLE
     29        N ZN ; RESULT NUMBER
     30        S ZN=$O(@ZVARS@(""),-1) ; NEXT RESULT
     31        N ZI S ZI=""
     32        F  S ZI=$O(VISIT(ZI)) Q:ZI=""  D  ; FOR EACH VISIT
     33        . I $G(VISIT(ZI,"TEXT",1))["ECG DONE" D  ; GOT AN ECG
     34        . . S ZN=ZN+1 ; INCREMENT RESULT COUNT
     35        . . N ZDATE,ZPRV,ZTXT
     36        . . S ZDATE=$G(VISIT(ZI,"DATE",0)) ; DATE OF PROCEDURE
     37        . . S ZPRV=$P($G(VISIT(ZI,"PRV",2)),"^",1) ;PROVIDER
     38        . . S ZTXT=$P($G(VISIT(ZI,"TEXT",4)),"ECG RESULTS: ",2)
     39        . . S @ZVARS@(ZN,"RESULTASSESSMENTDATETIME")=$$FMDTOUTC^C0CUTIL(ZDATE,"DT")
     40        . . S @ZVARS@(ZN,"RESULTCODE")="34534-8"
     41        . . S @ZVARS@(ZN,"RESULTCODINGSYSTEM")="LOINC"
     42        . . S @ZVARS@(ZN,"RESULTDESCRIPTIONTEXT")="Electrocardiogram LOINC:34534-8"
     43        . . S @ZVARS@(ZN,"RESULTOBJECTID")="RESULT"_ZN
     44        . . S @ZVARS@(ZN,"RESULTSOURCEACTORID")="ACTORPROVIDER_"_ZPRV
     45        . . S @ZVARS@(ZN,"RESULTSTATUS")=""
     46        . . S @ZVARS@(ZN,"M","TEST",0)=1
     47        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTCODEVALUE")="34534-8"
     48        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTCODINGSYSTEM")="LOINC"
     49        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTDATETIME")=$$FMDTOUTC^C0CUTIL(ZDATE,"DT")
     50        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTDESCRIPTIONTEXT")="Electrocardiogram LOINC:34534-8"
     51        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTFLAG")=""
     52        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTNORMALDESCTEXT")=""
     53        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTNORMALSOURCEACTORID")="ACTORORGANIZATION_VASTANUM"
     54        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTOBJECTID")="RESULTTEST_ECG_"_ZN
     55        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTSOURCEACTORID")="ACTORPROVIDER"_ZPRV
     56        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTSTATUSTEXT")="F"
     57        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTUNITS")=""
     58        . . S @ZVARS@(ZN,"M","TEST",1,"RESULTTESTVALUE")=ZTXT
     59        . . S @ZVARS@(0)=ZN ; UPDATE RESULTS COUNT
     60        Q
     61        ;
     62OLD     ; OLD CODE FOR OTHER WAYS OF DOING THE ECG
     63        ; FOR CERTIFICATION - SAVE EKG RESULTS gpl
     64        W !,"CPT=",ZCPT
     65        I ZCPT["93000" D  ; THIS IS AN EKG
     66        . D RNF1TO2^C0CRNF(C0CPRSLT,"ZRNF") ; SAVE FOR LABS
     67        . M ^GPL("RNF2")=@C0CPRSLT
     68        Q
     69        ;
  • ccr/branches/ohum/p/C0CPARMS.m

    r1332 r1333  
    11C0CPARMS        ; CCDCCR/GPL - CCR/CCD PARAMETER PROCESSING ; 1/29/09
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
     
    3838        ; THIS IS WHERE WE WILL INSERT CALLS TO THE PARAMETER FILE FOR DEFAULTS
    3939        ; IF THEY FAIL, THE FOLLOWING WILL BE HARDCODED DEFAULTS
    40         I '$D(@C0CPARMS@("LABLIMIT")) S @C0CPARMS@("LABLIMIT")="T-360" ;ONE YR WORTH
     40        ;OHUM/RUT commented the hardcoded limits
     41        ;I '$D(@C0CPARMS@("LABLIMIT")) S @C0CPARMS@("LABLIMIT")="T-360" ;ONE YR WORTH
     42        ;I '$D(@C0CPARMS@("LABSTART")) S @C0CPARMS@("LABSTART")="T" ;TODAY
     43        ;I '$D(@C0CPARMS@("VITLIMIT")) S @C0CPARMS@("VITLIMIT")="T-360" ;ONE YR VITALS
     44        ;I '$D(@C0CPARMS@("VITSTART")) S @C0CPARMS@("VITSTART")="T" ;TODAY
     45        ;I '$D(@C0CPARMS@("MEDSTART")) S @C0CPARMS@("MEDSTART")="T" ; TODAY
     46        ;I '$D(@C0CPARMS@("MEDSLIMIT")) S @C0CPARMS@("MEDLIMIT")="T-360" ; ONE YR MEDS
     47        ;I '$D(@C0CPARMS@("MEDACTIVE")) S @C0CPARMS@("MEDACTIVE")=1 ; YES
     48        ;I '$D(@C0CPARMS@("MEDPENDING")) S @C0CPARMS@("MEDPENDING")=0 ; NO
     49        ;I '$D(@C0CPARMS@("MEDALL")) S @C0CPARMS@("MEDALL")=0 ; NON-PENDING NON-ACTIVE
     50        S @C0CPARMS@("LABLIMIT")=^TMP("C0CCCR","LABLIMIT"),@C0CPARMS@("VITLIMIT")=^TMP("C0CCCR","VITLIMIT"),@C0CPARMS@("TIULIMIT")=^TMP("C0CCCR","TIULIMIT"),@C0CPARMS@("MEDLIMIT")=^TMP("C0CCCR","MEDLIMIT")
    4151        I '$D(@C0CPARMS@("LABSTART")) S @C0CPARMS@("LABSTART")="T" ;TODAY
    42         I '$D(@C0CPARMS@("VITLIMIT")) S @C0CPARMS@("VITLIMIT")="T-360" ;ONE YR VITALS
    4352        I '$D(@C0CPARMS@("VITSTART")) S @C0CPARMS@("VITSTART")="T" ;TODAY
    4453        I '$D(@C0CPARMS@("MEDSTART")) S @C0CPARMS@("MEDSTART")="T" ; TODAY
    45         I '$D(@C0CPARMS@("MEDSLIMIT")) S @C0CPARMS@("MEDLIMIT")="T-360" ; ONE YR MEDS
    4654        I '$D(@C0CPARMS@("MEDACTIVE")) S @C0CPARMS@("MEDACTIVE")=1 ; YES
    4755        I '$D(@C0CPARMS@("MEDPENDING")) S @C0CPARMS@("MEDPENDING")=0 ; NO
    48         I '$D(@C0CPARMS@("MEDALL")) S @C0CPARMS@("MEDALL")=0 ; NON-PENDING NON-ACTIVE
     56        I '$D(@C0CPARMS@("MEDALL")) S @C0CPARMS@("MEDALL")=1 ; NON-PENDING NON-ACTIVE
     57        ;I '$D(@C0CPARMS@("RALIMIT")) S @C0CPARMS@("RALIMIT")="T-36500" ;ONE YR WORTH
     58        ;I '$D(@C0CPARMS@("RASTART")) S @C0CPARMS@("RASTART")="T" ;TODAY
     59        I '$D(@C0CPARMS@("TIUSTART")) S @C0CPARMS@("TIUSTART")="T" ;TODAY
     60        ;OHUM/RUT
    4961        Q
    5062        ;
  • ccr/branches/ohum/p/C0CPROBS.m

    r1332 r1333  
    11C0CPROBS        ; CCDCCR/GPL/CJE - CCR/CCD PROCESSING FOR PROBLEMS ; 6/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CPROC.m

    r1332 r1333  
    11C0CPROC  ; CCDCCR/GPL - CCR/CCD PROCESSING FOR PROCEDURES ; 01/21/10
    2         ;;1.0;C0C;;Jan 21, 2010;Build 38
     2        ;;1.0;C0C;;Jan 21, 2010;Build 1
    33        ;Copyright 2010 George Lilly, University of Minnesota and others.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CPXRM.m

    r1332 r1333  
    1 C0CPXRM ;
    2 ;;;
    3 DOIT ;
    4  S G="PXRMXSEPCLINIC3110302.224804" ZWR ^XTMP(G,*)
    5  S G="PXRMXSEPCLINIC3110302.223957" ZWR ^XTMP(G,*)
    6  S G="PXRMXSEPCLINIC3110302.223738" ZWR ^XTMP(G,*)
    7  S G="PXRMXSEPCLINIC3110302.223516" ZWR ^XTMP(G,*)
    8  S G="PXRMXSEPCLINIC3110302.222158" ZWR ^XTMP(G,*)
    9  S G="PXRMXSEPCLINIC3110302.213944" ZWR ^XTMP(G,*)
    10  S G="PXRMXSEPCLINIC3110302.212219" ZWR ^XTMP(G,*)
    11  S G="PXRMXSEPCLINIC3110302.211506" ZWR ^XTMP(G,*)
    12  S G="PXRMXSEPCLINIC3110302.002714" ZWR ^XTMP(G,*)
    13  S G="PXRMXSEPCLINIC3110302.001841" ZWR ^XTMP(G,*)
    14  S G="PXRMXSEPCLINIC3110302.000846" ZWR ^XTMP(G,*)
    15  S G="PXRMXSEPCLINIC3110115.141918" ZWR ^XTMP(G,*)
    16  S G="PXRMXSEPCLINIC3110115.132312" ZWR ^XTMP(G,*)
    17  S G="PXRMXSEPCLINIC3110115.131653" ZWR ^XTMP(G,*)
    18  S G="PXRMXSEPCLINIC3110115.131008" ZWR ^XTMP(G,*)
    19  S G="PXRM PXK EVENT988 3110224.210456" ZWR ^XTMP(G,*)
    20  S G="PXRM PXK EVENT986 3110224.210456" ZWR ^XTMP(G,*)
    21  S G="PXRM PXK EVENT932 3110224.210456" ZWR ^XTMP(G,*)
    22  S G="PXRM PXK EVENT932 3110224.210455" ZWR ^XTMP(G,*)
    23  S G="PXRM PXK EVENT8015 3110301.215142" ZWR ^XTMP(G,*)
    24  S G="PXRM PXK EVENT8015 3110301.215141" ZWR ^XTMP(G,*)
    25  S G="PXRM PXK EVENT5265 3110309.124047" ZWR ^XTMP(G,*)
    26  S G="PXRM PXK EVENT5265 3110309.124046" ZWR ^XTMP(G,*)
    27  S G="PXRM PXK EVENT4742 3101129.221201" ZWR ^XTMP(G,*)
    28  S G="PXRM PXK EVENT4742 3101129.215741" ZWR ^XTMP(G,*)
    29  S G="PXRM PXK EVENT4710 3101129.215701" ZWR ^XTMP(G,*)
    30  S G="PXRM PXK EVENT3297 3101127.123134" ZWR ^XTMP(G,*)
    31  S G="PXRM PXK EVENT32495 3110224.194246" ZWR ^XTMP(G,*)
    32  S G="PXRM PXK EVENT32493 3110224.194246" ZWR ^XTMP(G,*)
    33  S G="PXRM PXK EVENT32354 3110224.194246" ZWR ^XTMP(G,*)
    34  S G="PXRM PXK EVENT32354 3110224.194245" ZWR ^XTMP(G,*)
    35  S G="PXRM PXK EVENT31106 3110224.175105" ZWR ^XTMP(G,*)
    36  S G="PXRM PXK EVENT31090 3110224.175105" ZWR ^XTMP(G,*)
    37  S G="PXRM PXK EVENT30339 3110224.175105" ZWR ^XTMP(G,*)
    38  S G="PXRM PXK EVENT30339 3110224.175103" ZWR ^XTMP(G,*)
    39  S G="PXRM PXK EVENT2761 3110115.174109" ZWR ^XTMP(G,*)
    40  S G="PXRM PXK EVENT2761 3110115.174108" ZWR ^XTMP(G,*)
    41  S G="PXRM PXK EVENT27327 3110227.013658" ZWR ^XTMP(G,*)
    42  S G="PXRM PXK EVENT27327 3110227.013657" ZWR ^XTMP(G,*)
    43  S G="PXRM PXK EVENT27327 3110227.013523" ZWR ^XTMP(G,*)
    44  S G="PXRM PXK EVENT27327 3110227.013522" ZWR ^XTMP(G,*)
    45  S G="PXRM PXK EVENT27253 3110227.012747" ZWR ^XTMP(G,*)
    46  S G="PXRM PXK EVENT27253 3110227.012746" ZWR ^XTMP(G,*)
    47  S G="PXRM PXK EVENT2559 3110115.170835" ZWR ^XTMP(G,*)
    48  S G="PXRM PXK EVENT25549 3110228.231135" ZWR ^XTMP(G,*)
    49  S G="PXRM PXK EVENT25549 3110228.231134" ZWR ^XTMP(G,*)
    50  S G="PXRM PXK EVENT2205 3101129.215343" ZWR ^XTMP(G,*)
    51  S G="PXRM PXK EVENT21092 3110114.195621" ZWR ^XTMP(G,*)
    52  S G="PXRM PXK EVENT21092 3110114.193803" ZWR ^XTMP(G,*)
    53  S G="PXRM PXK EVENT19640 3110226.032943" ZWR ^XTMP(G,*)
    54  S G="PXRM PXK EVENT19640 3110226.032941" ZWR ^XTMP(G,*)
    55  S G="PXRM PXK EVENT19353 3101212.162833" ZWR ^XTMP(G,*)
    56  S G="PXRM PXK EVENT18780 3110221.215603" ZWR ^XTMP(G,*)
    57  S G="PXRM PXK EVENT18156 3101212.152654" ZWR ^XTMP(G,*)
    58  S G="PXRM PXK EVENT17800 3110315.202432" ZWR ^XTMP(G,*)
    59  S G="PXRM PXK EVENT1650 3110220.192925" ZWR ^XTMP(G,*)
    60  S G="PXRM PXK EVENT16110 3110313.224636" ZWR ^XTMP(G,*)
    61  S G="PXRM PXK EVENT16004 3110317.151215" ZWR ^XTMP(G,*)
    62  S G="PXRM PXK EVENT16004 3110317.150834" ZWR ^XTMP(G,*)
    63  S G="PXRM PXK EVENT14955 3110315.165018" ZWR ^XTMP(G,*)
    64  S G="PXRM PXK EVENT14816 3110315.164839" ZWR ^XTMP(G,*)
    65  S G="PXRM PXK EVENT14816 3110315.164512" ZWR ^XTMP(G,*)
    66  S G="PXRM PXK EVENT12415 3110315.135514" ZWR ^XTMP(G,*)
    67  S G="PXRM PXK EVENT11797 3110315.131141" ZWR ^XTMP(G,*)
    68  S G="PXRM PXK EVENT11573 3110315.131811" ZWR ^XTMP(G,*)
    69  S G="PXRM PXK EVENT10728 3110114.025022" ZWR ^XTMP(G,*)
    70  S G="PXRM PXK EVENT10578 3110114.021524" ZWR ^XTMP(G,*)
    71  S G="PXRM PXK EVENT10243 3110114.020338" ZWR ^XTMP(G,*)
    72  S G="PXRM PXK EVENT10105 3101204.230554" ZWR ^XTMP(G,*)
    73  Q
    74  ;
     1C0CPXRM ;
     2DOIT    ;
     3        S G="PXRMXSEPCLINIC3110302.224804" ZWR ^XTMP(G,*)
     4        S G="PXRMXSEPCLINIC3110302.223957" ZWR ^XTMP(G,*)
     5        S G="PXRMXSEPCLINIC3110302.223738" ZWR ^XTMP(G,*)
     6        S G="PXRMXSEPCLINIC3110302.223516" ZWR ^XTMP(G,*)
     7        S G="PXRMXSEPCLINIC3110302.222158" ZWR ^XTMP(G,*)
     8        S G="PXRMXSEPCLINIC3110302.213944" ZWR ^XTMP(G,*)
     9        S G="PXRMXSEPCLINIC3110302.212219" ZWR ^XTMP(G,*)
     10        S G="PXRMXSEPCLINIC3110302.211506" ZWR ^XTMP(G,*)
     11        S G="PXRMXSEPCLINIC3110302.002714" ZWR ^XTMP(G,*)
     12        S G="PXRMXSEPCLINIC3110302.001841" ZWR ^XTMP(G,*)
     13        S G="PXRMXSEPCLINIC3110302.000846" ZWR ^XTMP(G,*)
     14        S G="PXRMXSEPCLINIC3110115.141918" ZWR ^XTMP(G,*)
     15        S G="PXRMXSEPCLINIC3110115.132312" ZWR ^XTMP(G,*)
     16        S G="PXRMXSEPCLINIC3110115.131653" ZWR ^XTMP(G,*)
     17        S G="PXRMXSEPCLINIC3110115.131008" ZWR ^XTMP(G,*)
     18        S G="PXRM PXK EVENT988 3110224.210456" ZWR ^XTMP(G,*)
     19        S G="PXRM PXK EVENT986 3110224.210456" ZWR ^XTMP(G,*)
     20        S G="PXRM PXK EVENT932 3110224.210456" ZWR ^XTMP(G,*)
     21        S G="PXRM PXK EVENT932 3110224.210455" ZWR ^XTMP(G,*)
     22        S G="PXRM PXK EVENT8015 3110301.215142" ZWR ^XTMP(G,*)
     23        S G="PXRM PXK EVENT8015 3110301.215141" ZWR ^XTMP(G,*)
     24        S G="PXRM PXK EVENT5265 3110309.124047" ZWR ^XTMP(G,*)
     25        S G="PXRM PXK EVENT5265 3110309.124046" ZWR ^XTMP(G,*)
     26        S G="PXRM PXK EVENT4742 3101129.221201" ZWR ^XTMP(G,*)
     27        S G="PXRM PXK EVENT4742 3101129.215741" ZWR ^XTMP(G,*)
     28        S G="PXRM PXK EVENT4710 3101129.215701" ZWR ^XTMP(G,*)
     29        S G="PXRM PXK EVENT3297 3101127.123134" ZWR ^XTMP(G,*)
     30        S G="PXRM PXK EVENT32495 3110224.194246" ZWR ^XTMP(G,*)
     31        S G="PXRM PXK EVENT32493 3110224.194246" ZWR ^XTMP(G,*)
     32        S G="PXRM PXK EVENT32354 3110224.194246" ZWR ^XTMP(G,*)
     33        S G="PXRM PXK EVENT32354 3110224.194245" ZWR ^XTMP(G,*)
     34        S G="PXRM PXK EVENT31106 3110224.175105" ZWR ^XTMP(G,*)
     35        S G="PXRM PXK EVENT31090 3110224.175105" ZWR ^XTMP(G,*)
     36        S G="PXRM PXK EVENT30339 3110224.175105" ZWR ^XTMP(G,*)
     37        S G="PXRM PXK EVENT30339 3110224.175103" ZWR ^XTMP(G,*)
     38        S G="PXRM PXK EVENT2761 3110115.174109" ZWR ^XTMP(G,*)
     39        S G="PXRM PXK EVENT2761 3110115.174108" ZWR ^XTMP(G,*)
     40        S G="PXRM PXK EVENT27327 3110227.013658" ZWR ^XTMP(G,*)
     41        S G="PXRM PXK EVENT27327 3110227.013657" ZWR ^XTMP(G,*)
     42        S G="PXRM PXK EVENT27327 3110227.013523" ZWR ^XTMP(G,*)
     43        S G="PXRM PXK EVENT27327 3110227.013522" ZWR ^XTMP(G,*)
     44        S G="PXRM PXK EVENT27253 3110227.012747" ZWR ^XTMP(G,*)
     45        S G="PXRM PXK EVENT27253 3110227.012746" ZWR ^XTMP(G,*)
     46        S G="PXRM PXK EVENT2559 3110115.170835" ZWR ^XTMP(G,*)
     47        S G="PXRM PXK EVENT25549 3110228.231135" ZWR ^XTMP(G,*)
     48        S G="PXRM PXK EVENT25549 3110228.231134" ZWR ^XTMP(G,*)
     49        S G="PXRM PXK EVENT2205 3101129.215343" ZWR ^XTMP(G,*)
     50        S G="PXRM PXK EVENT21092 3110114.195621" ZWR ^XTMP(G,*)
     51        S G="PXRM PXK EVENT21092 3110114.193803" ZWR ^XTMP(G,*)
     52        S G="PXRM PXK EVENT19640 3110226.032943" ZWR ^XTMP(G,*)
     53        S G="PXRM PXK EVENT19640 3110226.032941" ZWR ^XTMP(G,*)
     54        S G="PXRM PXK EVENT19353 3101212.162833" ZWR ^XTMP(G,*)
     55        S G="PXRM PXK EVENT18780 3110221.215603" ZWR ^XTMP(G,*)
     56        S G="PXRM PXK EVENT18156 3101212.152654" ZWR ^XTMP(G,*)
     57        S G="PXRM PXK EVENT17800 3110315.202432" ZWR ^XTMP(G,*)
     58        S G="PXRM PXK EVENT1650 3110220.192925" ZWR ^XTMP(G,*)
     59        S G="PXRM PXK EVENT16110 3110313.224636" ZWR ^XTMP(G,*)
     60        S G="PXRM PXK EVENT16004 3110317.151215" ZWR ^XTMP(G,*)
     61        S G="PXRM PXK EVENT16004 3110317.150834" ZWR ^XTMP(G,*)
     62        S G="PXRM PXK EVENT14955 3110315.165018" ZWR ^XTMP(G,*)
     63        S G="PXRM PXK EVENT14816 3110315.164839" ZWR ^XTMP(G,*)
     64        S G="PXRM PXK EVENT14816 3110315.164512" ZWR ^XTMP(G,*)
     65        S G="PXRM PXK EVENT12415 3110315.135514" ZWR ^XTMP(G,*)
     66        S G="PXRM PXK EVENT11797 3110315.131141" ZWR ^XTMP(G,*)
     67        S G="PXRM PXK EVENT11573 3110315.131811" ZWR ^XTMP(G,*)
     68        S G="PXRM PXK EVENT10728 3110114.025022" ZWR ^XTMP(G,*)
     69        S G="PXRM PXK EVENT10578 3110114.021524" ZWR ^XTMP(G,*)
     70        S G="PXRM PXK EVENT10243 3110114.020338" ZWR ^XTMP(G,*)
     71        S G="PXRM PXK EVENT10105 3101204.230554" ZWR ^XTMP(G,*)
     72        Q
     73        ;
  • ccr/branches/ohum/p/C0CQRY1.m

    r1332 r1333  
    1 LA7QRY1 ;DALOI/JMC - Lab HL7 Query Utility ;01/19/99  13:48
    2         ;;5.2;AUTOMATED LAB INSTRUMENTS;**46,61**;Sep 27, 1994;Build 31
    3         ;
    4         Q
    5         ;
    6 CHKSC   ; Check search NLT/LOINC codes
    7         ;
    8         N J
    9         ;
    10         S J=0
    11         F  S J=$O(LA7SC(J)) Q:'J  D
    12         . N X
    13         . S X=LA7SC(J)
    14         . I $P(X,"^",2)="NLT",$D(^LAM("E",$P(X,"^"))) D  Q
    15         . . S ^TMP("LA7-NLT",$J,$P(X,"^"))=""
    16         . I $P(X,"^",2)="LN",$D(^LAB(95.3,$P($P(X,"^"),"-"))) D  Q
    17         . . S ^TMP("LA7-LN",$J,$P($P(X,"^"),"-"))=""
    18         . S LA7ERR(6)="Unknown search code "_$P(X,"^")_" passed"
    19         . K LA7SC(J)
    20         Q
    21         ;
    22         ;
    23 SPEC    ; Convert HL7 Specimen Codes to File #61, Topography codes
    24         ; Find all topographies that use this HL7 specimen code
    25         N J,K,L
    26         ;
    27         S J=0
    28         F  S J=$O(LA7SPEC(J)) Q:'J  D
    29         . S K=LA7SPEC(J),L=0
    30         . F  S L=$O(^LAB(61,"HL7",K,L)) Q:'L  S ^TMP("LA7-61",$J,L)=""
    31         Q
    32         ;
    33         ;
    34 BUILDMSG        ; Build HL7 message with result of query
    35         ;
    36         N HL,HLECH,HLFS,HLQ,LA,LA763,LA7ECH,LA7FS,LA7MSH,LA7NOMSG,LA7NTESN,LA7NVAF,LA7OBRSN,LA7OBXSN,LA7PIDSN,LA7ROOT,LA7X,X
    37         ;
    38         I $L($G(LA7HL7))'=5 S LA7HL7="|^\~&"
    39         S (HL("FS"),HLFS,LA7FS)=$E(LA7HL7),(HL("ECH"),HLECH,LA7ECH)=$E(LA7HL7,2,5)
    40         S (HLQ,HL("Q"))=""""""
    41         ; Set flag to not send HL7 message
    42         S LA7NOMSG=1
    43         ; Create dummy MSH to pass HL7 delimiters
    44         S LA7MSH(0)="MSH"_LA7FS_LA7ECH_LA7FS
    45         D FILESEG^LA7VHLU(GBL,.LA7MSH)
    46         ;
    47         F X="AUTO-INST","LRDFN","LRIDT","SUB","HUID","NLT","RUID","SITE" S LA(X)=""
    48         ;
    49         ; Take search results and put in HL7 message structure
    50         S LA7ROOT="^TMP(""LA7-QRY"",$J)",(LA7QUIT,LA7PIDSN)=0
    51         ; F  S LA7ROOT=$Q(@LA7ROOT) Q:LA7QUIT  D ;change per John M
    52         F  S LA7ROOT=$Q(@LA7ROOT) Q:LA7ROOT=""  D  Q:LA7QUIT
    53         . I $QS(LA7ROOT,1)'="LA7-QRY"!($QS(LA7ROOT,2)'=$J) S LA7QUIT=1 Q
    54         . I LA("LRDFN")'=$QS(LA7ROOT,3) D PID S LA7OBRSN=0
    55         . I LA("LRIDT")'=$QS(LA7ROOT,4) D ORC,OBR
    56         . I LA("SUB")'=$QS(LA7ROOT,5) D ORC,OBR
    57         . I LA("NLT")'=$P($QS(LA7ROOT,6),"!") D ORC,OBR
    58         . D OBX
    59         ;
    60         Q
    61         ;
    62         ;
    63 PID     ; Build PID segment
    64         ;
    65         N LA7PID
    66         ;
    67         S (LA("LRDFN"),LRDFN)=$QS(LA7ROOT,3)
    68         S LRDPF=$P(^LR(LRDFN,0),"^",2),DFN=$P(^(0),"^",3)
    69         D DEM^LRX
    70         D PID^LA7VPID(LA("LRDFN"),"",.LA7PID,.LA7PIDSN,.HL)
    71         D FILESEG^LA7VHLU(GBL,.LA7PID)
    72         S (LA("LRIDT"),LA("SUB"))=""
    73         Q
    74         ;
    75         ;
    76 ORC     ; Build ORC segment
    77         ;
    78         N X
    79         ;
    80         S LA("LRIDT")=$QS(LA7ROOT,4),LA("SUB")=$QS(LA7ROOT,5)
    81         S LA763(0)=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0))
    82         S X=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),"ORU"))
    83         S LA("HUID")=$P(X,"^"),LA("SITE")=$P(X,"^",2),LA("RUID")=$P(X,"^",4)
    84         I LA("HUID")="" S LA("HUID")=$P(LA763(0),"^",6)
    85         S LA7NVAF=$$NVAF^LA7VHLU2(0),LA7NTESN=0
    86         D ORC^LA7VORU
    87         S LA("NLT")=""
    88         ;
    89         Q
    90         ;
    91         ;
    92 OBR     ; Build OBR segment
    93         ;
    94         N LA764,LA7NLT
    95         ;
    96         S (LA("NLT"),LA7NLT)=$P($QS(LA7ROOT,6),"!"),(LA764,LA("ORD"))=""
    97         I $L(LA7NLT) D
    98         . S LA764=+$O(^LAM("E",LA7NLT,0))
    99         . I LA764 S LA("ORD")=$$GET1^DIQ(64,LA764_",",.01)
    100         I LA("SUB")="CH" D
    101         . D OBR^LA7VORU
    102         . D NTE^LA7VORU
    103         . S LA7OBXSN=0
    104         ;
    105         Q
    106         ;
    107         ;
    108 OBX     ; Build OBX segment
    109         ;
    110         N LA7DATA,LA7VT
    111         ;
    112         S LA7NTESN=0
    113         I LA("SUB")="MI" D MI^LA7VORU1 Q
    114         I "CYEMSP"[LA("SUB") D AP^LA7VORU2 Q
    115         ;
    116         S LA7VT=$QS(LA7ROOT,7)
    117         D OBX^LA7VOBX(LA("LRDFN"),LA("SUB"),LA("LRIDT"),LA7VT,.LA7DATA,.LA7OBXSN,LA7FS,LA7ECH)
    118         I '$D(LA7DATA) Q
    119         D FILESEG^LA7VHLU(GBL,.LA7DATA)
    120         ; Send any test interpretation from file #60
    121         D INTRP^LA7VORUA
    122         ;
    123         Q
     1LA7QRY1 ;DALOI/JMC - Lab HL7 Query Utility ;01/19/99  13:48
     2               ;;5.2;AUTOMATED LAB INSTRUMENTS;**46,61**;Sep 27, 1994;Build 1
     3               ;
     4               Q
     5               ;
     6CHKSC     ; Check search NLT/LOINC codes
     7               ;
     8               N J
     9               ;
     10               S J=0
     11               F  S J=$O(LA7SC(J)) Q:'J  D
     12               . N X
     13               . S X=LA7SC(J)
     14               . I $P(X,"^",2)="NLT",$D(^LAM("E",$P(X,"^"))) D  Q
     15               . . S ^TMP("LA7-NLT",$J,$P(X,"^"))=""
     16               . I $P(X,"^",2)="LN",$D(^LAB(95.3,$P($P(X,"^"),"-"))) D  Q
     17               . . S ^TMP("LA7-LN",$J,$P($P(X,"^"),"-"))=""
     18               . S LA7ERR(6)="Unknown search code "_$P(X,"^")_" passed"
     19               . K LA7SC(J)
     20               Q
     21               ;
     22               ;
     23SPEC       ; Convert HL7 Specimen Codes to File #61, Topography codes
     24               ; Find all topographies that use this HL7 specimen code
     25               N J,K,L
     26               ;
     27               S J=0
     28               F  S J=$O(LA7SPEC(J)) Q:'J  D
     29               . S K=LA7SPEC(J),L=0
     30               . F  S L=$O(^LAB(61,"HL7",K,L)) Q:'L  S ^TMP("LA7-61",$J,L)=""
     31               Q
     32               ;
     33               ;
     34BUILDMSG               ; Build HL7 message with result of query
     35               ;
     36               N HL,HLECH,HLFS,HLQ,LA,LA763,LA7ECH,LA7FS,LA7MSH,LA7NOMSG,LA7NTESN,LA7NVAF,LA7OBRSN,LA7OBXSN,LA7PIDSN,LA7ROOT,LA7X,X
     37               ;
     38               I $L($G(LA7HL7))'=5 S LA7HL7="|^\~&"
     39               S (HL("FS"),HLFS,LA7FS)=$E(LA7HL7),(HL("ECH"),HLECH,LA7ECH)=$E(LA7HL7,2,5)
     40               S (HLQ,HL("Q"))=""""""
     41               ; Set flag to not send HL7 message
     42               S LA7NOMSG=1
     43               ; Create dummy MSH to pass HL7 delimiters
     44               S LA7MSH(0)="MSH"_LA7FS_LA7ECH_LA7FS
     45               D FILESEG^LA7VHLU(GBL,.LA7MSH)
     46               ;
     47               F X="AUTO-INST","LRDFN","LRIDT","SUB","HUID","NLT","RUID","SITE" S LA(X)=""
     48               ;
     49               ; Take search results and put in HL7 message structure
     50               S LA7ROOT="^TMP(""LA7-QRY"",$J)",(LA7QUIT,LA7PIDSN)=0
     51               ; F  S LA7ROOT=$Q(@LA7ROOT) Q:LA7QUIT  D ;change per John M
     52               F  S LA7ROOT=$Q(@LA7ROOT) Q:LA7ROOT=""  D  Q:LA7QUIT
     53               . I $QS(LA7ROOT,1)'="LA7-QRY"!($QS(LA7ROOT,2)'=$J) S LA7QUIT=1 Q
     54               . I LA("LRDFN")'=$QS(LA7ROOT,3) D PID S LA7OBRSN=0
     55               . I LA("LRIDT")'=$QS(LA7ROOT,4) D ORC,OBR
     56               . I LA("SUB")'=$QS(LA7ROOT,5) D ORC,OBR
     57               . I LA("NLT")'=$P($QS(LA7ROOT,6),"!") D ORC,OBR
     58               . D OBX
     59               ;
     60               Q
     61               ;
     62               ;
     63PID         ; Build PID segment
     64               ;
     65               N LA7PID
     66               ;
     67               S (LA("LRDFN"),LRDFN)=$QS(LA7ROOT,3)
     68               S LRDPF=$P(^LR(LRDFN,0),"^",2),DFN=$P(^(0),"^",3)
     69               D DEM^LRX
     70               D PID^LA7VPID(LA("LRDFN"),"",.LA7PID,.LA7PIDSN,.HL)
     71               D FILESEG^LA7VHLU(GBL,.LA7PID)
     72               S (LA("LRIDT"),LA("SUB"))=""
     73               Q
     74               ;
     75               ;
     76ORC         ; Build ORC segment
     77               ;
     78               N X
     79               ;
     80               S LA("LRIDT")=$QS(LA7ROOT,4),LA("SUB")=$QS(LA7ROOT,5)
     81               S LA763(0)=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0))
     82               S X=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),"ORU"))
     83               S LA("HUID")=$P(X,"^"),LA("SITE")=$P(X,"^",2),LA("RUID")=$P(X,"^",4)
     84               I LA("HUID")="" S LA("HUID")=$P(LA763(0),"^",6)
     85               S LA7NVAF=$$NVAF^LA7VHLU2(0),LA7NTESN=0
     86               D ORC^LA7VORU
     87               S LA("NLT")=""
     88               ;
     89               Q
     90               ;
     91               ;
     92OBR         ; Build OBR segment
     93               ;
     94               N LA764,LA7NLT
     95               ;
     96               S (LA("NLT"),LA7NLT)=$P($QS(LA7ROOT,6),"!"),(LA764,LA("ORD"))=""
     97               I $L(LA7NLT) D
     98               . S LA764=+$O(^LAM("E",LA7NLT,0))
     99               . I LA764 S LA("ORD")=$$GET1^DIQ(64,LA764_",",.01)
     100               I LA("SUB")="CH" D
     101               . D OBR^LA7VORU
     102               . D NTE^LA7VORU
     103               . S LA7OBXSN=0
     104               ;
     105               Q
     106               ;
     107               ;
     108OBX         ; Build OBX segment
     109               ;
     110               N LA7DATA,LA7VT
     111               ;
     112               S LA7NTESN=0
     113               I LA("SUB")="MI" D MI^LA7VORU1 Q
     114               I "CYEMSP"[LA("SUB") D AP^LA7VORU2 Q
     115               ;
     116               S LA7VT=$QS(LA7ROOT,7)
     117               D OBX^LA7VOBX(LA("LRDFN"),LA("SUB"),LA("LRIDT"),LA7VT,.LA7DATA,.LA7OBXSN,LA7FS,LA7ECH)
     118               I '$D(LA7DATA) Q
     119               D FILESEG^LA7VHLU(GBL,.LA7DATA)
     120               ; Send any test interpretation from file #60
     121               D INTRP^LA7VORUA
     122               ;
     123               Q
  • ccr/branches/ohum/p/C0CQRY2.m

    r1332 r1333  
    1 LA7QRY2 ;DALOI/JMC - Lab HL7 Query Utility ; 04/13/09
    2  ;;5.2;AUTOMATED LAB INSTRUMENTS;**46**;Sep 27, 1994
    3  ; JMC - mods to check for IHS V LAB file
    4  ;
    5  Q
    6  ;
    7 PATID ; Resolve patient id and establish patient environment
    8  ;
    9  N LA7X
    10  ;
    11  S (DFN,LRDFN)="",LA7PTYP=0
    12  ;
    13  ; SSN passed as patient identifier
    14  I LA7PTID?9N.1A D
    15  . S LA7PTYP=1
    16  . S LA7X=$O(^DPT("SSN",LA7PTID,0))
    17  . I LA7X>0 D SETDFN(LA7X)
    18  ;
    19  ; MPI/ICN (integration control number) passed as patient identifier
    20  I LA7PTID?10N1"V"6N D
    21  . S LA7PTYP=2
    22  . S LA7X=$$GETDFN^MPIF001($P(LA7PTID,"V"))
    23  . I LA7X>0 D SETDFN(LA7X)
    24  ;
    25  ; If no patient identified/no laboratory record - return exception message
    26  I 'LA7PTYP S LA7ERR(1)="Invalid patient identifier passed"
    27  I 'DFN S LA7ERR(2)="No patient found with requested identifier"
    28  I DFN,'LRDFN S LA7ERR(3)="No laboratory record for requested patient"
    29  I LRDFN,'$D(^LR(LRDFN)) S LA7ERR(4)="Database error - missing laboratory record for requested patient"
    30  Q
    31  ;
    32  ;
    33 BCD ; Search by specimen collection date.
    34  ;
    35  N LA763,LA7QUIT
    36  ;
    37  S (LA7SDT(0),LA7EDT(0))=0
    38  I LA7SDT S LA7SDT(0)=9999999-LA7SDT
    39  I LA7EDT S LA7EDT(0)=9999999-LA7EDT
    40  ;
    41  F LRSS="CH","MI","SP" D
    42  . S (LA7QUIT,LRIDT)=0
    43  . I LA7EDT(0) S LRIDT=$O(^LR(LRDFN,LRSS,LA7EDT(0)),-1)
    44  . F  S LRIDT=$O(^LR(LRDFN,LRSS,LRIDT)) Q:LA7QUIT  D
    45  . . ; Quit if reached end of data or outside date criteria
    46  . . I 'LRIDT!(LRIDT>LA7SDT(0)) S LA7QUIT=1 Q
    47  . . D SEARCH
    48  ;
    49  Q
    50  ;
    51  ;
    52 BRAD ; Search by results available date (completion date).
    53  ; Assumes cross-references still exist for dates in LRO(69) global.
    54  ; Collects specimen date/time values for a given LRDFN and completion date.
    55  ; Cross-reference is by date only, time stripped from start date.
    56  ; Uses cross-reference ^LRO(69,DT,1,"AN",'LOCATION',LRDFN,LRIDT)=""
    57  ;
    58  N LA763,LA7DT,LA7ROOT,LA7SRC,X
    59  ;
    60  ; Check if orders still exist Iin file #69 for search range
    61  S LA7SDT(1)=(LA7SDT\1)-.0000000001,LA7EDT(1)=(LA7EDT\1)+.24,LA7SRC=0
    62  S X=$O(^LRO(69,LA7SDT(1)))
    63  I X,X<LA7EDT(1) S LA7SRC=1
    64  ;
    65  ; Search "AN" cross-reference in file #69.
    66  I LA7SRC D
    67  . S LA7DT=LA7SDT(1)
    68  . F  S LA7DT=$O(^LRO(69,LA7DT)) Q:'LA7DT!(LA7DT>LA7EDT(1))  D
    69  . . S LA7ROOT="^LRO(69,LA7DT,1,""AN"")"
    70  . . F  S LA7ROOT=$Q(@LA7ROOT) Q:LA7ROOT=""!($QS(LA7ROOT,2)'=LA7DT)!($QS(LA7ROOT,4)'="AN")  D
    71  . . . I $QS(LA7ROOT,6)'=LRDFN Q
    72  . . . S LRIDT=$QS(LA7ROOT,7)
    73  . . . F LRSS="CH","MI","SP" D SEARCH
    74  ;
    75  ; If no orders in #69 then do long search through file #63.
    76  I 'LA7SRC D
    77  . F LRSS="CH","MI","SP" D
    78  . . S LRIDT=0
    79  . . F  S LRIDT=$O(^LR(LRDFN,LRSS,LRIDT)) Q:'LRIDT  D
    80  . . . S LA763(0)=$G(^LR(LRDFN,LRSS,LRIDT,0))
    81  . . . I $P(LA763(0),"^",3)>LA7SDT(1),$P(LA763(0),"^",3)<LA7EDT(1) D SEARCH
    82  ;
    83  Q
    84  ;
    85  ;
    86 SEARCH ; Search subscript for a specific collection date/time
    87  ;
    88  K LA763
    89  S LA763(0)=$G(^LR(LRDFN,LRSS,LRIDT,0))
    90  ;
    91  ; Only CH, MI, and BB subscripts store pointer to file #61 in 5th piece of zeroth node.
    92  ; Quit if specific specimen codes and they do not match
    93  I "CHMIBB"[LRSS S LA761=+$P(LA763(0),"^",5)
    94  E  S LA761=0
    95  I LA761,$D(^TMP("LA7-61",$J)),'$D(^TMP("LA7-61",$J,LA761)) Q
    96  ;
    97  ; --- Chemistry
    98  I LRSS="CH" D CHSS Q
    99  ; --- Microbiology
    100  I LRSS="MI" D MISS Q
    101  ; --- Surgical pathology
    102  I LRSS="SP" D APSS Q
    103  ; --- Cytology
    104  I LRSS="CY" D APSS Q
    105  ; --- Electron Micrscopsy
    106  I LRSS="EM" D APSS Q
    107  ; --- Autopsy
    108  I LRSS="AU" D APSS Q
    109  ; --- Blood Bank
    110  I LRSS="BB" D BBSS Q
    111  Q
    112  ;
    113  ;
    114 CHSS ; Search "CH" datanames for matching codes
    115  ;
    116  N LA7X,LRSB
    117  ;
    118  S LRSB=1
    119  F  S LRSB=$O(^LR(LRDFN,LRSS,LRIDT,LRSB)) Q:'LRSB  D
    120  . S LA7X=$G(^LR(LRDFN,LRSS,LRIDT,LRSB))
    121  . I $D(^AUPNVLAB) D LNCHK^C0CLA7Q ; WV check for IHS.
    122  . S LA7CODE=$$DEFCODE^LA7VHLU5(LRSS,LRSB,$P(LA7X,"^",3),LA761)
    123  . D CHECK
    124  ;
    125  Q
    126  ;
    127  ;
    128 MISS ; Search "MI" subscripts for matching codes
    129  ;
    130  N LA7ND,LRSB
    131  ;
    132  S LA7ND=0
    133  F LA7ND=1,5,8,11,16 I $D(^LR(LRDFN,LRSS,LRIDT,LA7ND)) D
    134  . S LRSB=$S(LA7ND=1:11,LA7ND=5:14,LA7ND=8:18,LA7ND=11:22,LA7ND=16:33,1:11)
    135  . S LA7CODE=$$DEFCODE^LA7VHLU5(LRSS,LRSB,"",LA761)
    136  . D CHECK
    137  Q
    138  ;
    139  ;
    140 APSS ; Search AP subscripts for matching codes
    141  ; AP results are currently not coded - use defaults
    142  ;
    143  N LA7CODE,LRSB
    144  ;
    145  S LRSB=.012
    146  S LA7CODE=$$DEFCODE^LA7VHLU5(LRSS,LRSB,"","")
    147  D CHECK
    148  ;
    149  Q
    150  ;
    151  ;
    152 BBSS ; Search BB subscript for matching codes
    153  ; *** This subscript currently not supported ***
    154  Q
    155  ;
    156  ;
    157 CHECK ; Check NLT order/result and LOINC codes.
    158  ;
    159  N LA7QUIT
    160  ;
    161  ; If wildcard then store
    162  ; Otherwise check for specific NLT order/result and LOINC codes
    163  I LA7SC="*" D STORE Q
    164  S LA7QUIT=0
    165  F I=1:1:3 D  Q:LA7QUIT
    166  . ; If no test code then skip
    167  . I '$L($P(LA7CODE,"!",I)) Q
    168  . ; If test code does not match a search code then quit
    169  . I '$D(^TMP($S(I=3:"LA7-LN",1:"LA7-NLT"),$J,$P(LA7CODE,"!",I))) Q
    170  . D STORE S LA7QUIT=1
    171  ;
    172  Q
    173  ;
    174  ;
    175 STORE ; Store entry for building in HL7 message
    176  ;
    177  S ^TMP("LA7-QRY",$J,LRDFN,LRIDT,LRSS,LA7CODE,LRSB)=""
    178  Q
    179  ;
    180  ;
    181 SETDFN(LA7X) ; Setup DFN and other lab variables.
    182  ;
    183  S DFN=LA7X,LRDFN=$P($G(^DPT(DFN,"LR")),"^")
    184  Q
     1LA7QRY2 ;DALOI/JMC - Lab HL7 Query Utility ; 04/13/09
     2        ;;5.2;AUTOMATED LAB INSTRUMENTS;**46**;Sep 27, 1994;Build 1
     3        ; JMC - mods to check for IHS V LAB file
     4        ;
     5        Q
     6        ;
     7PATID   ; Resolve patient id and establish patient environment
     8        ;
     9        N LA7X
     10        ;
     11        S (DFN,LRDFN)="",LA7PTYP=0
     12        ;
     13        ; SSN passed as patient identifier
     14        I LA7PTID?9N.1A D
     15        . S LA7PTYP=1
     16        . S LA7X=$O(^DPT("SSN",LA7PTID,0))
     17        . I LA7X>0 D SETDFN(LA7X)
     18        ;
     19        ; MPI/ICN (integration control number) passed as patient identifier
     20        I LA7PTID?10N1"V"6N D
     21        . S LA7PTYP=2
     22        . S LA7X=$$GETDFN^MPIF001($P(LA7PTID,"V"))
     23        . I LA7X>0 D SETDFN(LA7X)
     24        ;
     25        ; If no patient identified/no laboratory record - return exception message
     26        I 'LA7PTYP S LA7ERR(1)="Invalid patient identifier passed"
     27        I 'DFN S LA7ERR(2)="No patient found with requested identifier"
     28        I DFN,'LRDFN S LA7ERR(3)="No laboratory record for requested patient"
     29        I LRDFN,'$D(^LR(LRDFN)) S LA7ERR(4)="Database error - missing laboratory record for requested patient"
     30        Q
     31        ;
     32        ;
     33BCD     ; Search by specimen collection date.
     34        ;
     35        N LA763,LA7QUIT
     36        ;
     37        S (LA7SDT(0),LA7EDT(0))=0
     38        I LA7SDT S LA7SDT(0)=9999999-LA7SDT
     39        I LA7EDT S LA7EDT(0)=9999999-LA7EDT
     40        ;
     41        F LRSS="CH","MI","SP" D
     42        . S (LA7QUIT,LRIDT)=0
     43        . I LA7EDT(0) S LRIDT=$O(^LR(LRDFN,LRSS,LA7EDT(0)),-1)
     44        . F  S LRIDT=$O(^LR(LRDFN,LRSS,LRIDT)) Q:LA7QUIT  D
     45        . . ; Quit if reached end of data or outside date criteria
     46        . . I 'LRIDT!(LRIDT>LA7SDT(0)) S LA7QUIT=1 Q
     47        . . D SEARCH
     48        ;
     49        Q
     50        ;
     51        ;
     52BRAD    ; Search by results available date (completion date).
     53        ; Assumes cross-references still exist for dates in LRO(69) global.
     54        ; Collects specimen date/time values for a given LRDFN and completion date.
     55        ; Cross-reference is by date only, time stripped from start date.
     56        ; Uses cross-reference ^LRO(69,DT,1,"AN",'LOCATION',LRDFN,LRIDT)=""
     57        ;
     58        N LA763,LA7DT,LA7ROOT,LA7SRC,X
     59        ;
     60        ; Check if orders still exist Iin file #69 for search range
     61        S LA7SDT(1)=(LA7SDT\1)-.0000000001,LA7EDT(1)=(LA7EDT\1)+.24,LA7SRC=0
     62        S X=$O(^LRO(69,LA7SDT(1)))
     63        I X,X<LA7EDT(1) S LA7SRC=1
     64        ;
     65        ; Search "AN" cross-reference in file #69.
     66        I LA7SRC D
     67        . S LA7DT=LA7SDT(1)
     68        . F  S LA7DT=$O(^LRO(69,LA7DT)) Q:'LA7DT!(LA7DT>LA7EDT(1))  D
     69        . . S LA7ROOT="^LRO(69,LA7DT,1,""AN"")"
     70        . . F  S LA7ROOT=$Q(@LA7ROOT) Q:LA7ROOT=""!($QS(LA7ROOT,2)'=LA7DT)!($QS(LA7ROOT,4)'="AN")  D
     71        . . . I $QS(LA7ROOT,6)'=LRDFN Q
     72        . . . S LRIDT=$QS(LA7ROOT,7)
     73        . . . F LRSS="CH","MI","SP" D SEARCH
     74        ;
     75        ; If no orders in #69 then do long search through file #63.
     76        I 'LA7SRC D
     77        . F LRSS="CH","MI","SP" D
     78        . . S LRIDT=0
     79        . . F  S LRIDT=$O(^LR(LRDFN,LRSS,LRIDT)) Q:'LRIDT  D
     80        . . . S LA763(0)=$G(^LR(LRDFN,LRSS,LRIDT,0))
     81        . . . I $P(LA763(0),"^",3)>LA7SDT(1),$P(LA763(0),"^",3)<LA7EDT(1) D SEARCH
     82        ;
     83        Q
     84        ;
     85        ;
     86SEARCH  ; Search subscript for a specific collection date/time
     87        ;
     88        K LA763
     89        S LA763(0)=$G(^LR(LRDFN,LRSS,LRIDT,0))
     90        ;
     91        ; Only CH, MI, and BB subscripts store pointer to file #61 in 5th piece of zeroth node.
     92        ; Quit if specific specimen codes and they do not match
     93        I "CHMIBB"[LRSS S LA761=+$P(LA763(0),"^",5)
     94        E  S LA761=0
     95        I LA761,$D(^TMP("LA7-61",$J)),'$D(^TMP("LA7-61",$J,LA761)) Q
     96        ;
     97        ; --- Chemistry
     98        I LRSS="CH" D CHSS Q
     99        ; --- Microbiology
     100        I LRSS="MI" D MISS Q
     101        ; --- Surgical pathology
     102        I LRSS="SP" D APSS Q
     103        ; --- Cytology
     104        I LRSS="CY" D APSS Q
     105        ; --- Electron Micrscopsy
     106        I LRSS="EM" D APSS Q
     107        ; --- Autopsy
     108        I LRSS="AU" D APSS Q
     109        ; --- Blood Bank
     110        I LRSS="BB" D BBSS Q
     111        Q
     112        ;
     113        ;
     114CHSS    ; Search "CH" datanames for matching codes
     115        ;
     116        N LA7X,LRSB
     117        ;
     118        S LRSB=1
     119        F  S LRSB=$O(^LR(LRDFN,LRSS,LRIDT,LRSB)) Q:'LRSB  D
     120        . S LA7X=$G(^LR(LRDFN,LRSS,LRIDT,LRSB))
     121        . I $D(^AUPNVLAB) D LNCHK^C0CLA7Q ; WV check for IHS.
     122        . S LA7CODE=$$DEFCODE^LA7VHLU5(LRSS,LRSB,$P(LA7X,"^",3),LA761)
     123        . D CHECK
     124        ;
     125        Q
     126        ;
     127        ;
     128MISS    ; Search "MI" subscripts for matching codes
     129        ;
     130        N LA7ND,LRSB
     131        ;
     132        S LA7ND=0
     133        F LA7ND=1,5,8,11,16 I $D(^LR(LRDFN,LRSS,LRIDT,LA7ND)) D
     134        . S LRSB=$S(LA7ND=1:11,LA7ND=5:14,LA7ND=8:18,LA7ND=11:22,LA7ND=16:33,1:11)
     135        . S LA7CODE=$$DEFCODE^LA7VHLU5(LRSS,LRSB,"",LA761)
     136        . D CHECK
     137        Q
     138        ;
     139        ;
     140APSS    ; Search AP subscripts for matching codes
     141        ; AP results are currently not coded - use defaults
     142        ;
     143        N LA7CODE,LRSB
     144        ;
     145        S LRSB=.012
     146        S LA7CODE=$$DEFCODE^LA7VHLU5(LRSS,LRSB,"","")
     147        D CHECK
     148        ;
     149        Q
     150        ;
     151        ;
     152BBSS    ; Search BB subscript for matching codes
     153        ; *** This subscript currently not supported ***
     154        Q
     155        ;
     156        ;
     157CHECK   ; Check NLT order/result and LOINC codes.
     158        ;
     159        N LA7QUIT
     160        ;
     161        ; If wildcard then store
     162        ; Otherwise check for specific NLT order/result and LOINC codes
     163        I LA7SC="*" D STORE Q
     164        S LA7QUIT=0
     165        F I=1:1:3 D  Q:LA7QUIT
     166        . ; If no test code then skip
     167        . I '$L($P(LA7CODE,"!",I)) Q
     168        . ; If test code does not match a search code then quit
     169        . I '$D(^TMP($S(I=3:"LA7-LN",1:"LA7-NLT"),$J,$P(LA7CODE,"!",I))) Q
     170        . D STORE S LA7QUIT=1
     171        ;
     172        Q
     173        ;
     174        ;
     175STORE   ; Store entry for building in HL7 message
     176        ;
     177        S ^TMP("LA7-QRY",$J,LRDFN,LRIDT,LRSS,LA7CODE,LRSB)=""
     178        Q
     179        ;
     180        ;
     181SETDFN(LA7X)    ; Setup DFN and other lab variables.
     182        ;
     183        S DFN=LA7X,LRDFN=$P($G(^DPT(DFN,"LR")),"^")
     184        Q
  • ccr/branches/ohum/p/C0CRIMA.m

    r1332 r1333  
    11C0CRIMA   ; CCDCCR/GPL - RIM REPORT ROUTINES; 6/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CRNF.m

    r1332 r1333  
    11C0CRNF    ; CCDCCR/GPL - Reference Name Format (RNF) utilities; 12/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CRNFRP.m

    r1332 r1333  
    1 C0CRNFRPC   ; CCDCCR/GPL - Reference Name Format (RNF) RPCs; 12/9/09
    2  ;;1.0;C0C;;Dec 9, 2009;
    3  ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  W "This is the Reference Name Format (RNF) RPC Library ",!
    21  W !
    22  Q
    23  ;
    24  ;This routine will be mirroring C0CRNF and transform the output
    25  ;of the tags into an RPC friendly format
    26  ;The tags will be exactly as they are in C0CRNF
    27 FIELDS(C0CFRTN,C0CFILE) ; RETURNS AN ARRAY OF THE FIELDS IN FILE C0CF,
    28  ;C0CFRTN IS PASSED BY REFERENCE, C0CF IS PASSED BY VALUE
    29  ;RETURN FORMAT:
    30  ;^TMP("C0CRNF",$J,0)="NUMBER_OF_RESULTS
    31  ;^TMP("C0CRNF",$J,I)="FIELD_NAME^FILE_NUMBER^FIELD_NUMBER"
    32  ;
    33  ;SAMPLE OUTPUT FROM FIELDS^C0CRNF:
    34  ;C0CRNFFIELDS("*AMOUNT OF MILITARY RETIREMENT")="2^.3625"
    35  ;
    36  ;FORMAT APPEARS TO BE:
    37  ;VARIABLENAME("FIELD_NAME")="FILE_NUMBER^FIELD_NUMBER"
    38  ;
    39  ;SET DEBUG VALUE - REQUIRED - 0=OFF 1=ON
    40  S DEBUG=0
    41  ;SET RETURN VALUE
    42  S C0CFRTN=$NA(^TMP("C0CRNF",$J))
    43  K @C0CFRTN
    44  ;RUN WRAPPED CALL
    45  D FIELDS^C0CRNF("C0CRTN",C0CFILE)
    46  S J=""
    47  S I=1
    48  ;FORMAT RETURN
    49  F  S J=$O(C0CRTN(J)) Q:J=""  D  ; FOR EACH FIELD IN THE ARRAY
    50  . S @C0CFRTN@(I)=J_"^"_C0CRTN(J)
    51  . S I=I+1
    52  S @C0CFRTN@(0)=I-1
    53  ;CLEAN UP
    54  K J,I
    55  Q
    56  ;
    57 GETNOLD(GRTN,GFILE,GIEN,GNN) ; GET FIELDS FOR ACCESS BY NAME
    58  ; GRTN IS PASSED BY NAME
    59  ;
    60  ; OLD TAG DO NOT USE!
    61  Q
    62  ;
    63 GETN(C0CGRTN,GFILE,GREF,GNDX,GNN) ; GET BY NAME ; RETURN A FIELD VALUE MAP
    64  ; FORMAT ARRAY @GRTN@("FIELD NAME")="FILE^FIELD#^VALUE" ;GPL
    65  ; GRTN, PASSED BY NAME, RETURNS A FIELD MAP AND A VALUE MAP
    66  ; .. FIELD MAP @GRTN@("F","FIELDNAME^FILE^FIELD#")=""
    67  ; ... ANY FIELD USED BY ANY RECORD PROCESSED IS IN THE FIELD MAP
    68  ; .. VALUE MAP @GRTN@("V","IEN","FIELDNAME")=VALUE
    69  ; .. IF GNN="ALL" THEN ALL FIELDS FOR THE FILE ARE IN THE FIELD MAP
    70  ; .. EVEN IF GNN="ALL" ONLY POPULATED FIELDS ARE RETURNED IN THE VALUE MAP
    71  ; .. NULL FIELDS CAN BE DETERMINED BY CHECKING FIELD MAP - THIS SAVES SPACE
    72  ; IF GREF IS "" THE FIRST RECORD IS OBTAINED
    73  ; IF GNDX IS NULL, GREF IS AN IEN FOR THE FILE
    74  ; GNDX IS THE INDEX TO USE TO OBTAIN THE IEN
    75  ; GREF IS THE VALUE FOR THE INDEX
    76  ; GANN= NOT NULL - IF GANN IS "ALL" THEN EVEN NULL FIELDS WILL BE RETURNED
    77  ; OTHERWISE, ONLY POPULATED FIELDS ARE RETURNED IN GRTN
    78  ;
    79  ;
    80  ;RETURN FORMAT:
    81  ;^TMP("C0CRNF",$J,0)="NUMBER_OF_RESULTS^FILE_NUMBER^RNF1^IEN^CURRENT_DATE^$J^DUZ_$C(30)"
    82  ;^TMP("C0CRNF",$J,I)="FIELD_NAME^FILE_NUMBER^FIELD_NUMBER^VALUE^INTERNAL_VALUE_$C(30)"
    83  ;
    84  ;SAMPLE OUTPUT FROM FIELDS^C0CRNF:
    85  ;C0CRNFGETN(0)="2^RNF1^5095^3091209^2908^3268"
    86  ;C0CRNFGETN("1U4N")="2^.0905^H5369"
    87  ;C0CRNFGETN("1U4N","I")="^^H5369"
    88  ;C0CRNFGETN("ADDRESS CHANGE DT/TM")="2^.118^OCT 21,2009@08:03:26"
    89  ;C0CRNFGETN("ADDRESS CHANGE DT/TM","I")="^^3091021.080326"
    90  ;
    91  ;FORMAT APPEARS TO BE:
    92  ;VARIABLENAME(0)="FILE_NUMBER^RNF1^IEN^CURRENT_DATE^$J^DUZ"
    93  ;VARIABLENAME("FIELD_NAME")="FILE_NUMBER^FIELD_NUMBER^VALUE"
    94  ;VARIABLENAME("FIELD_NAME","I")="^^INTERNAL_VALUE"
    95  ;
    96  ;SET DEBUG VALUE - REQUIRED - 0=OFF 1=ON
    97  S DEBUG=0
    98  ;SET RETURN VALUE
    99  S C0CGRTN=$NA(^TMP("C0CRNF",$J))
    100  K @C0CGRTN
    101  ;RUN WRAPPED CALL
    102  D GETN^C0CRNF("C0CRTN",$G(GFILE),$G(GREF),$G(GNDX),$G(GNN))
    103  S J=""
    104  S I=1
    105  ;FORMAT RETURN
    106  F  S J=$O(C0CRTN(J)) Q:J=""  D  ; FOR EACH FIELD IN THE ARRAY
    107  . I J=0 S J=$O(C0CRTN(J)) ; SKIP THE 0 NODE
    108  . S @C0CGRTN@(I)=J_"^"_C0CRTN(J)_"^" ; GETS THE FIRST LINE
    109  . ;S J=$O(C0CRTN(J)) ; INCREMENT J SO WE CAN GET THE INTERNAL DATA
    110  . ;TEST TO SEE IF INTERNAL DATA EXISTS
    111  . I $D(C0CRTN(J,"I"))=1 D
    112  . . S @C0CGRTN@(I)=@C0CGRTN@(I)_$P(C0CRTN(J,"I"),U,3) ; GETS THE INTERNAL VALUE PIECE 3
    113  . S I=I+1
    114  S @C0CGRTN@(0)=I-1_"^"_C0CRTN(0)
    115  ;CLEAN UP
    116  K J,I
    117  Q
    118  ;
    119 GETN1(GRTN,GFILE,GREF,GNDX,GNN) ; NEW GET ;GPL ; RETURN A FIELD VALUE MAP
    120  ; THE FOLLOWING COMMENTS ARE WRONG.. THIS ROUTINE STILL RETURNS AN RNF1
    121  ; FORMAT ARRAY @GRTN@("FIELD NAME")="FILE^FIELD#^VALUE" ;GPL
    122  ; GETN IS AN EXTRINSIC WHICH RETURNS THE NEXT IEN AFTER THE CURRENT GIEN
    123  ; GRTN, PASSED BY NAME, RETURNS A FIELD MAP AND A VALUE MAP
    124  ; .. FIELD MAP @GRTN@("F","FIELDNAME^FILE^FIELD#")=""
    125  ; ... ANY FIELD USED BY ANY RECORD PROCESSED IS IN THE FIELD MAP
    126  ; .. VALUE MAP @GRTN@("V","IEN","FIELDNAME")=VALUE
    127  ; .. GRTN IS NOT INITIALIZED, SO MULTIPLE CALLS ARE CUMULATIVE
    128  ; .. IF GNN="ALL" THEN ALL FIELDS FOR THE FILE ARE IN THE FIELD MAP
    129  ; .. EVEN IF GNN="ALL" ONLY POPULATED FIELDS ARE RETURNED IN THE VALUE MAP
    130  ; .. NUL FIELDS CAN BE DETERMINED BY CHECKING FIELD MAP - THIS SAVES SPACE
    131  ; IF GREF IS "" THE FIRST RECORD IS OBTAINED
    132  ; IF GNDX IS NULL, GREF IS AN IEN FOR THE FILE
    133  ; GNDX IS THE INDEX TO USE TO OBTAIN THE IEN
    134  ; GREF IS THE VALUE FOR THE INDEX
    135  ; GANN= NOT NULL - IF GANN IS "ALL" THEN EVEN NULL FIELDS WILL BE RETURNED
    136  ; OTHERWISE, ONLY POPULATED FIELDS ARE RETURNED IN GRTN
    137  ;
    138  ;
    139  N GIEN,GF
    140  S GF=$$FILEREF(GFILE) ;CLOSED FILE REFERENCE FOR FILE NUMBER GFILE
    141  I ('$D(GNDX))!(GNDX="") S GIEN=GREF ; IF NO INDEX USED, GREF IS THE IEN
    142  E  D  ; WE ARE USING AN INDEX
    143  . ;N ZG
    144  . S ZG=$Q(@GF@(GNDX,GREF)) ;ACCESS INDEX
    145  . I ZG'="" D  ;
    146  . . I $QS(ZG,3)=GREF D  ; IS GREF IN INDEX?
    147  . . . S GIEN=$QS(ZG,4) ; PULL OUT THE IEN
    148  . . E  S GIEN="" ; NOT FOUND IN INDEX
    149  . E  S GIEN="" ;
    150  ;W "IEN: ",GIEN,!
    151  ;N C0CTMP,C0CI,C0CJ,C0CREF,C0CNAME
    152  I $D(GNN) I GNN="ALL" S C0CNN=0 ; NOT NON-NULL (ALL FIELDS TO BE RETURNED)
    153  E  S C0CNN=1 ; NON-NULL IS TRUE (ONLY POPULATED FIELDS RETURNED)
    154  S C0CREF=GIEN_"," ; OPEN ROOT REFERENCE INTO FILE
    155  D CLEAN^DILF ; MAKE SURE WE ARE CLEANED UP
    156  K C0CTMP
    157  D GETS^DIQ(GFILE,C0CREF,"**","IE","C0CTMP")
    158  D FIELDS(GRTN,GFILE) ;GET ALL THE FIELD NAMES FOR THE FILE
    159  S @GRTN@(0)=GFILE_"^RNF1^"_GIEN_"^"_DT_"^"_$J_"^"_DUZ ; STRUCTURE SIGNATURE
    160  S (C0CI,C0CJ)=""
    161  F  S C0CJ=$O(C0CTMP(C0CJ)) Q:C0CJ=""  D  ; FOR ALL SUBFILES
    162  . S C0CREF=$O(C0CTMP(C0CJ,"")) ; RECORD REFERENCE
    163  . F  S C0CI=$O(C0CTMP(C0CJ,C0CREF,C0CI)) Q:C0CI=""  D  ; ARRAY OF FIELDS
    164  . . ;W C0CJ," ",C0CI,!
    165  . . S C0CNAME=$P(^DD(C0CJ,C0CI,0),"^",1) ;PULL THE FIELD NAME
    166  . . S C0CVALUE=C0CTMP(C0CJ,C0CREF,C0CI,"E") ;
    167  . . I C0CVALUE["C0CTMP" D  ; WP FIELD
    168  . . . N ZT,ZWP S ZWP=0 ;ITERATOR
    169  . . . S ZWP=$O(C0CTMP(C0CJ,C0CREF,C0CI,ZWP)) ; INIT TO FIRST LINE
    170  . . . S C0CVALUE=C0CTMP(C0CJ,C0CREF,C0CI,ZWP) ; INIT TO FIRST LINE
    171  . . . F  S ZWP=$O(C0CTMP(C0CJ,C0CREF,C0CI,ZWP)) Q:'ZWP  D  ;
    172  . . . . S ZT=" "_C0CTMP(C0CJ,C0CREF,C0CI,ZWP) ;LINE OF WP
    173  . . . . S ZT=$TR(ZT,"^""","|'") ;HACK TO GET RID OF ^ AND " IN TEXT "
    174  . . . . S C0CVALUE=C0CVALUE_ZT ;
    175  . . S $P(@GRTN@(C0CNAME),"^",3)=C0CVALUE ;RETURN VALUE IN P3
    176  . . S $P(@GRTN@(C0CNAME,"I"),"^",3)=$G(C0CTMP(C0CJ,C0CREF,C0CI,"I"))
    177  I C0CNN D  ; IF ONLY NON-NULL VALUES ARE TO BE RETURNED
    178  . S C0CI=""
    179  . F  S C0CI=$O(@GRTN@(C0CI)) Q:C0CI=""  D  ; GO THROUGH THE WHOLE ARRAY
    180  . . I $P(@GRTN@(C0CI),"^",3)="" K @GRTN@(C0CI) ; KILL THE NULL ENTRIES
    181  Q
    182  ;
    183 GETN2(GARTN,GAFILE,GAIDX,GACNT,GASTRT,GANN) ; RETURN FIELD MAP AND VALUES
    184  ; GARTN, PASSED BY NAME, RETURNS A FIELD MAP AND A VALUE MAP
    185  ; .. FIELD MAP @GARTN@("F","FIELDNAME")="FILE;FIELD#"
    186  ; ... ANY FIELD USED BY ANY RECORD PROCESSED IS IN THE FIELD MAP
    187  ; .. VALUE MAP @GARTN@("V","IEN","FIELDNAME","N")=VALUE
    188  ; .. WHERE N IS THE INDEX FOR MULTIPLES.. 1 FOR SINGLE VALUES
    189  ; .. GARTN IS NOT INITIALIZED, SO MULTIPLE CALLS ARE CUMULATIVE
    190  ; .. IF GANN="ALL" THEN ALL FIELDS FOR THE FILE ARE IN THE FIELD MAP
    191  ; .. EVEN IF GANN="ALL" ONLY POPULATED FIELDS ARE RETURNED IN THE VALUE MAP
    192  ; .. NUL FIELDS CAN BE DETERMINED BY CHECKING FIELD MAP - THIS SAVES SPACE
    193  ; GAFILE IS THE FILE NUMBER TO BE PROCESSED. IT IS PASSED BY VALUE
    194  ; GAIDX IS THE OPTIONAL INDEX TO USE IN THE FILE. IF GAIDX IS "" THE IEN
    195  ; .. OF THE FILE WILL BE USED
    196  ; GACNT IS THE NUMBER OF RECORDS TO PROCESS. IT IS PASSED BY VALUE
    197  ; .. IF GARCNT IS NULL, ALL RECORDS ARE PROCESSED
    198  ; GASTRT IS THE IEN OF THE FIRST RECORD TO PROCESS. IT IS PASSED BY VALUE
    199  ; .. IF GARSTART IS NULL, PROCESSING STARTS AT THE FIRST RECORD
    200  ; GANN= NOT NULL - IF GANN IS "ALL" THEN EVEN NULL FIELDS WILL BE RETURNED
    201  ; OTHERWISE, ONLY POPULATED FIELDS ARE RETURNED IN GARFLD AND GARVAL
    202  ;N GATMP,GAI,GAF
    203  S GAF=$$FILEREF(GAFILE) ; GET CLOSED ROOT FOR THE FILE NUMBER GAFILE
    204  I '$D(GAIDX) S GAIDX="" ;DEFAULT
    205  I '$D(GANN) S GANN="" ;DEFAULT ONLY POPULATED FIELDS RETURNED
    206  I GAIDX'="" S GAF=$NA(@GAF@(GAIDX)) ; IF WE ARE USING AN INDEX
    207  W GAF,!
    208  W $O(@GAF@(0)) ;
    209  S GAI=0 ;ITERATOR
    210  F  S GAI=$O(@GAF@(GAI)) Q:GAI=""  D  ;
    211  . D GETN1("GATMP",GAFILE,GAI,GAIDX,GANN) ;GET ONE RECORD
    212  . N GAX S GAX=0
    213  . F  S GAX=$O(GATMP(GAX)) Q:GAX=""  D  ;PULL OUT THE FIELDS
    214  . . D ADDNV(GARTN,GAI,GAX,GATMP(GAX)) ;INSERT THE NAME/VALUE INTO GARTN
    215  Q
    216  ;
    217 ADDNV(GNV,GNVN,GNVF,GNVV) ; CREATE AN ELEMENT OF THE MATRIX
    218  ;
    219  S @GNV@("F",GNVF)=$P(GNVV,"^",1)_"^"_$P(GNVV,"^",2) ;NAME=FILE^FIELD#
    220  S @GNV@("V",GNVN,GNVF,1)=$P(GNVV,"^",3) ;SET THE VALUE
    221  Q
    222  ;
    223 RNF2CSV(RNRTN,RNIN,RNSTY) ;CONVERTS AN RFN2 GLOBAL TO A CSV FORMAT
    224  ; READY TO WRITE FOR USE WITH EXCEL @RNRTN@(0) IS NUMBER OF LINES
    225  ; RNSTY IS STYLE OF THE OUTPUT -
    226  ; .. "NV"= ROWS ARE NAMES, COLUMNS ARE VALUES
    227  ; .. "VN"= ROWS ARE VALUES, COLUMNS ARE NAMES
    228  ; .. DEFAULT IS "NV" BECAUSE MANY MATRICES HAVE MORE FIELDS THAN VALUES
    229  N RNR,RNC ;ROW ROOT,COL ROOT
    230  N RNI,RNJ,RNX
    231  I '$D(RNSTY) S RNSTY="NV" ;DEFAULT
    232  I RNSTY="NV" D NV(RNRTN,RNIN)  ; INTERNAL SUBROUTINES DEPENDING ON ORIENTATION
    233  E  D VN(RNRTN,RNIN) ;
    234  Q
    235  ;
    236 NV(RNRTN,RNIN) ;
    237  S RNR=$NA(@RNIN@("F"))
    238  S RNC=$NA(@RNIN@("V"))
    239  ;S RNY=$P(@RNIN@(0),"^",1) ; FILE NUMBER
    240  S RNX="""FILE"""_"," ; FIRST COLUMN NAME IS "FIELD"
    241  S RNI=""
    242  F  S RNI=$O(@RNC@(RNI)) Q:RNI=""  D  ; FOR EACH COLUMN
    243  . S RNX=RNX_RNI_"," ;ADD THE COLUMM ELEMENT AND A COMMA
    244  S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
    245  D PUSH^GPLXPATH(RNRTN,RNX) ; FIRST LINE CONTAINS COLUMN HEADINGS
    246  S RNI=""
    247  F  S RNI=$O(@RNR@(RNI)) Q:RNI=""  D  ; FOR EACH ROW
    248  . S RNX=""""_RNI_""""_"," ; FIRST ELEMENT ON ROW IS THE FIELD
    249  . S RNJ=""
    250  . F  S RNJ=$O(@RNC@(RNJ)) Q:RNJ=""  D  ; FOR EACH COL
    251  . . I $D(@RNC@(RNJ,RNI,1)) D  ; THIS ROW HAS THIS COLUMN
    252  . . . S RNX=RNX_""""_@RNC@(RNJ,RNI,1)_""""_"," ; ADD THE ELEMENT PLUS A COMMA
    253  . . E  S RNX=RNX_"," ; NUL COLUMN
    254  . S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
    255  . D PUSH^GPLXPATH(RNRTN,RNX)
    256  Q
    257  ;
    258 VN(RNRTN,RNIN) ;
    259  S RNR=$NA(@RNIN@("V"))
    260  S RNC=$NA(@RNIN@("F"))
    261  ;S RNY=$P(@RNIN@(0),"^",1) ; FILE NUMBER
    262  S RNX="""FILE"""_"," ; FIRST COLUMN NAME IS "FIELD"
    263  S RNI=""
    264  F  S RNI=$O(@RNC@(RNI)) Q:RNI=""  D  ; FOR EACH COLUMN
    265  . S RNX=RNX_RNI_"," ;ADD THE COLUMM ELEMENT AND A COMMA
    266  S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
    267  D PUSH^GPLXPATH(RNRTN,RNX) ; FIRST LINE CONTAINS COLUMN HEADINGS
    268  S RNI=""
    269  F  S RNI=$O(@RNR@(RNI)) Q:RNI=""  D  ; FOR EACH ROW
    270  . S RNX=""""_RNI_""""_"," ; FIRST ELEMENT ON ROW IS THE FIELD
    271  . S RNJ=""
    272  . F  S RNJ=$O(@RNC@(RNJ)) Q:RNJ=""  D  ; FOR EACH COL
    273  . . I $D(@RNR@(RNI,RNJ,1)) D  ; THIS ROW HAS THIS COLUMN
    274  . . . S RNX=RNX_""""_@RNR@(RNI,RNJ,1)_""""_"," ; ADD THE ELEMENT PLUS A COMMA
    275  . . E  S RNX=RNX_"," ; NUL COLUMN
    276  . S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
    277  . D PUSH^GPLXPATH(RNRTN,RNX)
    278  Q
    279  ;
    280 READCSV(PATH,NAME,GLB) ; READ A CSV FILE IN FROM UNIX TO GLB, PASSED BY NAME
    281  ;
    282  Q $$FTG^%ZISH(PATH,NAME,GLB,1)
    283  ;
    284 FILE2CSV(FNUM,FVN) ; WRITES OUT A FILEMAN FILE TO CSV
    285  ;
    286  ;N G1,G2
    287  I '$D(FVN) S FVN="NV" ; DEFAULT ORIENTATION OF CVS FILE
    288  S G1=$NA(^TMP($J,"C0CCSV",1))
    289  S G2=$NA(^TMP($J,"C0CCSV",2))
    290  D GETN2(G1,FNUM) ; GET THE MATRIX
    291  D RNF2CSV(G2,G1,FVN) ; PREPARE THE CVS FILE
    292  K @G1
    293  D FILEOUT(G2,"FILE_"_FNUM_".csv")
    294  K @G2
    295  Q
    296  ;
    297 FILEOUT(FOARY,FONAM) ; WRITE OUT A FILE
    298  ;
    299  W $$OUTPUT^GPLXPATH($NA(@FOARY@(1)),FONAM,^TMP("GPLCCR","ODIR"))
    300  Q
    301  ;
    302 FILEREF(FNUM) ; EXTRINSIC THAT RETURNS A CLOSED ROOT FOR FILE NUMBER FNUM
    303  ;
    304  N C0CF
    305  S C0CF=^DIC(FNUM,0,"GL") ;OPEN ROOT TO FILE
    306  S C0CF=$P(C0CF,",",1)_")" ; CLOSE THE ROOT
    307  I C0CF["()" S C0CF=$P(C0CF,"()",1)
    308  Q C0CF
    309  ;
    310 SKIP ;
    311  N TXT,DIERR
    312  S TXT=$$GET1^DIQ(8925,TIUIEN,"2","","TXT")
    313  I $D(DIERR) D CLEAN^DILF Q
    314  W "  report_text:",!  ;Progress Note Text
    315  N LN S LN=0
    316  F  S LN=$O(TXT(LN)) Q:'LN  D
    317  . W "    text"_LN_": "_TXT(LN),!
    318  . Q
    319  Q
    320  ;
    321 ZFILE(ZFN,ZTAB) ; EXTRINSIC TO RETURN FILE NUMBER FOR FIELD NAME PASSED
    322  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 1 OF @ZTAB@(ZFN)
    323  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    324  I '$D(ZTAB) S ZTAB="C0CA"
    325  Q $P(@ZTAB@(ZFN),"^",1)
    326 ZFIELD(ZFN,ZTAB) ;EXTRINSIC TO RETURN FIELD NUMBER FOR FIELD NAME PASSED
    327  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 2 OF @ZTAB@(ZFN)
    328  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    329  I '$D(ZTAB) S ZTAB="C0CA"
    330  Q $P(@ZTAB@(ZFN),"^",2)
    331 ZVALUE(ZFN,ZTAB) ;EXTRINSIC TO RETURN VALUE FOR FIELD NAME PASSED
    332  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF @ZTAB@(ZFN)
    333  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    334  I '$D(ZTAB) S ZTAB="C0CA"
    335  Q $P($G(@ZTAB@(ZFN)),"^",3)
    336  ;
    337 ZVALUEI(ZFN,ZTAB) ;EXTRINSIC TO RETURN INTERNAL VALUE FOR FIELD NAME PASSED
    338  ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF @ZTAB@(ZFN)
    339  ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
    340  I '$D(ZTAB) S ZTAB="C0CA"
    341  Q $P($G(@ZTAB@(ZFN,"I")),"^",3)
    342  ;
     1C0CRNFRPC         ; CCDCCR/GPL - Reference Name Format (RNF) RPCs; 12/9/09
     2        ;;1.0;C0C;;Dec 9, 2009;Build 1
     3        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        W "This is the Reference Name Format (RNF) RPC Library ",!
     21        W !
     22        Q
     23        ;
     24        ;This routine will be mirroring C0CRNF and transform the output
     25        ;of the tags into an RPC friendly format
     26        ;The tags will be exactly as they are in C0CRNF
     27FIELDS(C0CFRTN,C0CFILE) ; RETURNS AN ARRAY OF THE FIELDS IN FILE C0CF,
     28        ;C0CFRTN IS PASSED BY REFERENCE, C0CF IS PASSED BY VALUE
     29        ;RETURN FORMAT:
     30        ;^TMP("C0CRNF",$J,0)="NUMBER_OF_RESULTS
     31        ;^TMP("C0CRNF",$J,I)="FIELD_NAME^FILE_NUMBER^FIELD_NUMBER"
     32        ;
     33        ;SAMPLE OUTPUT FROM FIELDS^C0CRNF:
     34        ;C0CRNFFIELDS("*AMOUNT OF MILITARY RETIREMENT")="2^.3625"
     35        ;
     36        ;FORMAT APPEARS TO BE:
     37        ;VARIABLENAME("FIELD_NAME")="FILE_NUMBER^FIELD_NUMBER"
     38        ;
     39        ;SET DEBUG VALUE - REQUIRED - 0=OFF 1=ON
     40        S DEBUG=0
     41        ;SET RETURN VALUE
     42        S C0CFRTN=$NA(^TMP("C0CRNF",$J))
     43        K @C0CFRTN
     44        ;RUN WRAPPED CALL
     45        D FIELDS^C0CRNF("C0CRTN",C0CFILE)
     46        S J=""
     47        S I=1
     48        ;FORMAT RETURN
     49        F  S J=$O(C0CRTN(J)) Q:J=""  D  ; FOR EACH FIELD IN THE ARRAY
     50        . S @C0CFRTN@(I)=J_"^"_C0CRTN(J)
     51        . S I=I+1
     52        S @C0CFRTN@(0)=I-1
     53        ;CLEAN UP
     54        K J,I
     55        Q
     56        ;
     57GETNOLD(GRTN,GFILE,GIEN,GNN)    ; GET FIELDS FOR ACCESS BY NAME
     58        ; GRTN IS PASSED BY NAME
     59        ;
     60        ; OLD TAG DO NOT USE!
     61        Q
     62        ;
     63GETN(C0CGRTN,GFILE,GREF,GNDX,GNN)       ; GET BY NAME ; RETURN A FIELD VALUE MAP
     64        ; FORMAT ARRAY @GRTN@("FIELD NAME")="FILE^FIELD#^VALUE" ;GPL
     65        ; GRTN, PASSED BY NAME, RETURNS A FIELD MAP AND A VALUE MAP
     66        ; .. FIELD MAP @GRTN@("F","FIELDNAME^FILE^FIELD#")=""
     67        ; ... ANY FIELD USED BY ANY RECORD PROCESSED IS IN THE FIELD MAP
     68        ; .. VALUE MAP @GRTN@("V","IEN","FIELDNAME")=VALUE
     69        ; .. IF GNN="ALL" THEN ALL FIELDS FOR THE FILE ARE IN THE FIELD MAP
     70        ; .. EVEN IF GNN="ALL" ONLY POPULATED FIELDS ARE RETURNED IN THE VALUE MAP
     71        ; .. NULL FIELDS CAN BE DETERMINED BY CHECKING FIELD MAP - THIS SAVES SPACE
     72        ; IF GREF IS "" THE FIRST RECORD IS OBTAINED
     73        ; IF GNDX IS NULL, GREF IS AN IEN FOR THE FILE
     74        ; GNDX IS THE INDEX TO USE TO OBTAIN THE IEN
     75        ; GREF IS THE VALUE FOR THE INDEX
     76        ; GANN= NOT NULL - IF GANN IS "ALL" THEN EVEN NULL FIELDS WILL BE RETURNED
     77        ; OTHERWISE, ONLY POPULATED FIELDS ARE RETURNED IN GRTN
     78        ;
     79        ;
     80        ;RETURN FORMAT:
     81        ;^TMP("C0CRNF",$J,0)="NUMBER_OF_RESULTS^FILE_NUMBER^RNF1^IEN^CURRENT_DATE^$J^DUZ_$C(30)"
     82        ;^TMP("C0CRNF",$J,I)="FIELD_NAME^FILE_NUMBER^FIELD_NUMBER^VALUE^INTERNAL_VALUE_$C(30)"
     83        ;
     84        ;SAMPLE OUTPUT FROM FIELDS^C0CRNF:
     85        ;C0CRNFGETN(0)="2^RNF1^5095^3091209^2908^3268"
     86        ;C0CRNFGETN("1U4N")="2^.0905^H5369"
     87        ;C0CRNFGETN("1U4N","I")="^^H5369"
     88        ;C0CRNFGETN("ADDRESS CHANGE DT/TM")="2^.118^OCT 21,2009@08:03:26"
     89        ;C0CRNFGETN("ADDRESS CHANGE DT/TM","I")="^^3091021.080326"
     90        ;
     91        ;FORMAT APPEARS TO BE:
     92        ;VARIABLENAME(0)="FILE_NUMBER^RNF1^IEN^CURRENT_DATE^$J^DUZ"
     93        ;VARIABLENAME("FIELD_NAME")="FILE_NUMBER^FIELD_NUMBER^VALUE"
     94        ;VARIABLENAME("FIELD_NAME","I")="^^INTERNAL_VALUE"
     95        ;
     96        ;SET DEBUG VALUE - REQUIRED - 0=OFF 1=ON
     97        S DEBUG=0
     98        ;SET RETURN VALUE
     99        S C0CGRTN=$NA(^TMP("C0CRNF",$J))
     100        K @C0CGRTN
     101        ;RUN WRAPPED CALL
     102        D GETN^C0CRNF("C0CRTN",$G(GFILE),$G(GREF),$G(GNDX),$G(GNN))
     103        S J=""
     104        S I=1
     105        ;FORMAT RETURN
     106        F  S J=$O(C0CRTN(J)) Q:J=""  D  ; FOR EACH FIELD IN THE ARRAY
     107        . I J=0 S J=$O(C0CRTN(J)) ; SKIP THE 0 NODE
     108        . S @C0CGRTN@(I)=J_"^"_C0CRTN(J)_"^" ; GETS THE FIRST LINE
     109        . ;S J=$O(C0CRTN(J)) ; INCREMENT J SO WE CAN GET THE INTERNAL DATA
     110        . ;TEST TO SEE IF INTERNAL DATA EXISTS
     111        . I $D(C0CRTN(J,"I"))=1 D
     112        . . S @C0CGRTN@(I)=@C0CGRTN@(I)_$P(C0CRTN(J,"I"),U,3) ; GETS THE INTERNAL VALUE PIECE 3
     113        . S I=I+1
     114        S @C0CGRTN@(0)=I-1_"^"_C0CRTN(0)
     115        ;CLEAN UP
     116        K J,I
     117        Q
     118        ;
     119GETN1(GRTN,GFILE,GREF,GNDX,GNN) ; NEW GET ;GPL ; RETURN A FIELD VALUE MAP
     120        ; THE FOLLOWING COMMENTS ARE WRONG.. THIS ROUTINE STILL RETURNS AN RNF1
     121        ; FORMAT ARRAY @GRTN@("FIELD NAME")="FILE^FIELD#^VALUE" ;GPL
     122        ; GETN IS AN EXTRINSIC WHICH RETURNS THE NEXT IEN AFTER THE CURRENT GIEN
     123        ; GRTN, PASSED BY NAME, RETURNS A FIELD MAP AND A VALUE MAP
     124        ; .. FIELD MAP @GRTN@("F","FIELDNAME^FILE^FIELD#")=""
     125        ; ... ANY FIELD USED BY ANY RECORD PROCESSED IS IN THE FIELD MAP
     126        ; .. VALUE MAP @GRTN@("V","IEN","FIELDNAME")=VALUE
     127        ; .. GRTN IS NOT INITIALIZED, SO MULTIPLE CALLS ARE CUMULATIVE
     128        ; .. IF GNN="ALL" THEN ALL FIELDS FOR THE FILE ARE IN THE FIELD MAP
     129        ; .. EVEN IF GNN="ALL" ONLY POPULATED FIELDS ARE RETURNED IN THE VALUE MAP
     130        ; .. NUL FIELDS CAN BE DETERMINED BY CHECKING FIELD MAP - THIS SAVES SPACE
     131        ; IF GREF IS "" THE FIRST RECORD IS OBTAINED
     132        ; IF GNDX IS NULL, GREF IS AN IEN FOR THE FILE
     133        ; GNDX IS THE INDEX TO USE TO OBTAIN THE IEN
     134        ; GREF IS THE VALUE FOR THE INDEX
     135        ; GANN= NOT NULL - IF GANN IS "ALL" THEN EVEN NULL FIELDS WILL BE RETURNED
     136        ; OTHERWISE, ONLY POPULATED FIELDS ARE RETURNED IN GRTN
     137        ;
     138        ;
     139        N GIEN,GF
     140        S GF=$$FILEREF(GFILE) ;CLOSED FILE REFERENCE FOR FILE NUMBER GFILE
     141        I ('$D(GNDX))!(GNDX="") S GIEN=GREF ; IF NO INDEX USED, GREF IS THE IEN
     142        E  D  ; WE ARE USING AN INDEX
     143        . ;N ZG
     144        . S ZG=$Q(@GF@(GNDX,GREF)) ;ACCESS INDEX
     145        . I ZG'="" D  ;
     146        . . I $QS(ZG,3)=GREF D  ; IS GREF IN INDEX?
     147        . . . S GIEN=$QS(ZG,4) ; PULL OUT THE IEN
     148        . . E  S GIEN="" ; NOT FOUND IN INDEX
     149        . E  S GIEN="" ;
     150        ;W "IEN: ",GIEN,!
     151        ;N C0CTMP,C0CI,C0CJ,C0CREF,C0CNAME
     152        I $D(GNN) I GNN="ALL" S C0CNN=0 ; NOT NON-NULL (ALL FIELDS TO BE RETURNED)
     153        E  S C0CNN=1 ; NON-NULL IS TRUE (ONLY POPULATED FIELDS RETURNED)
     154        S C0CREF=GIEN_"," ; OPEN ROOT REFERENCE INTO FILE
     155        D CLEAN^DILF ; MAKE SURE WE ARE CLEANED UP
     156        K C0CTMP
     157        D GETS^DIQ(GFILE,C0CREF,"**","IE","C0CTMP")
     158        D FIELDS(GRTN,GFILE) ;GET ALL THE FIELD NAMES FOR THE FILE
     159        S @GRTN@(0)=GFILE_"^RNF1^"_GIEN_"^"_DT_"^"_$J_"^"_DUZ ; STRUCTURE SIGNATURE
     160        S (C0CI,C0CJ)=""
     161        F  S C0CJ=$O(C0CTMP(C0CJ)) Q:C0CJ=""  D  ; FOR ALL SUBFILES
     162        . S C0CREF=$O(C0CTMP(C0CJ,"")) ; RECORD REFERENCE
     163        . F  S C0CI=$O(C0CTMP(C0CJ,C0CREF,C0CI)) Q:C0CI=""  D  ; ARRAY OF FIELDS
     164        . . ;W C0CJ," ",C0CI,!
     165        . . S C0CNAME=$P(^DD(C0CJ,C0CI,0),"^",1) ;PULL THE FIELD NAME
     166        . . S C0CVALUE=C0CTMP(C0CJ,C0CREF,C0CI,"E") ;
     167        . . I C0CVALUE["C0CTMP" D  ; WP FIELD
     168        . . . N ZT,ZWP S ZWP=0 ;ITERATOR
     169        . . . S ZWP=$O(C0CTMP(C0CJ,C0CREF,C0CI,ZWP)) ; INIT TO FIRST LINE
     170        . . . S C0CVALUE=C0CTMP(C0CJ,C0CREF,C0CI,ZWP) ; INIT TO FIRST LINE
     171        . . . F  S ZWP=$O(C0CTMP(C0CJ,C0CREF,C0CI,ZWP)) Q:'ZWP  D  ;
     172        . . . . S ZT=" "_C0CTMP(C0CJ,C0CREF,C0CI,ZWP) ;LINE OF WP
     173        . . . . S ZT=$TR(ZT,"^""","|'") ;HACK TO GET RID OF ^ AND " IN TEXT "
     174        . . . . S C0CVALUE=C0CVALUE_ZT ;
     175        . . S $P(@GRTN@(C0CNAME),"^",3)=C0CVALUE ;RETURN VALUE IN P3
     176        . . S $P(@GRTN@(C0CNAME,"I"),"^",3)=$G(C0CTMP(C0CJ,C0CREF,C0CI,"I"))
     177        I C0CNN D  ; IF ONLY NON-NULL VALUES ARE TO BE RETURNED
     178        . S C0CI=""
     179        . F  S C0CI=$O(@GRTN@(C0CI)) Q:C0CI=""  D  ; GO THROUGH THE WHOLE ARRAY
     180        . . I $P(@GRTN@(C0CI),"^",3)="" K @GRTN@(C0CI) ; KILL THE NULL ENTRIES
     181        Q
     182        ;
     183GETN2(GARTN,GAFILE,GAIDX,GACNT,GASTRT,GANN)     ; RETURN FIELD MAP AND VALUES
     184        ; GARTN, PASSED BY NAME, RETURNS A FIELD MAP AND A VALUE MAP
     185        ; .. FIELD MAP @GARTN@("F","FIELDNAME")="FILE;FIELD#"
     186        ; ... ANY FIELD USED BY ANY RECORD PROCESSED IS IN THE FIELD MAP
     187        ; .. VALUE MAP @GARTN@("V","IEN","FIELDNAME","N")=VALUE
     188        ; .. WHERE N IS THE INDEX FOR MULTIPLES.. 1 FOR SINGLE VALUES
     189        ; .. GARTN IS NOT INITIALIZED, SO MULTIPLE CALLS ARE CUMULATIVE
     190        ; .. IF GANN="ALL" THEN ALL FIELDS FOR THE FILE ARE IN THE FIELD MAP
     191        ; .. EVEN IF GANN="ALL" ONLY POPULATED FIELDS ARE RETURNED IN THE VALUE MAP
     192        ; .. NUL FIELDS CAN BE DETERMINED BY CHECKING FIELD MAP - THIS SAVES SPACE
     193        ; GAFILE IS THE FILE NUMBER TO BE PROCESSED. IT IS PASSED BY VALUE
     194        ; GAIDX IS THE OPTIONAL INDEX TO USE IN THE FILE. IF GAIDX IS "" THE IEN
     195        ; .. OF THE FILE WILL BE USED
     196        ; GACNT IS THE NUMBER OF RECORDS TO PROCESS. IT IS PASSED BY VALUE
     197        ; .. IF GARCNT IS NULL, ALL RECORDS ARE PROCESSED
     198        ; GASTRT IS THE IEN OF THE FIRST RECORD TO PROCESS. IT IS PASSED BY VALUE
     199        ; .. IF GARSTART IS NULL, PROCESSING STARTS AT THE FIRST RECORD
     200        ; GANN= NOT NULL - IF GANN IS "ALL" THEN EVEN NULL FIELDS WILL BE RETURNED
     201        ; OTHERWISE, ONLY POPULATED FIELDS ARE RETURNED IN GARFLD AND GARVAL
     202        ;N GATMP,GAI,GAF
     203        S GAF=$$FILEREF(GAFILE) ; GET CLOSED ROOT FOR THE FILE NUMBER GAFILE
     204        I '$D(GAIDX) S GAIDX="" ;DEFAULT
     205        I '$D(GANN) S GANN="" ;DEFAULT ONLY POPULATED FIELDS RETURNED
     206        I GAIDX'="" S GAF=$NA(@GAF@(GAIDX)) ; IF WE ARE USING AN INDEX
     207        W GAF,!
     208        W $O(@GAF@(0)) ;
     209        S GAI=0 ;ITERATOR
     210        F  S GAI=$O(@GAF@(GAI)) Q:GAI=""  D  ;
     211        . D GETN1("GATMP",GAFILE,GAI,GAIDX,GANN) ;GET ONE RECORD
     212        . N GAX S GAX=0
     213        . F  S GAX=$O(GATMP(GAX)) Q:GAX=""  D  ;PULL OUT THE FIELDS
     214        . . D ADDNV(GARTN,GAI,GAX,GATMP(GAX)) ;INSERT THE NAME/VALUE INTO GARTN
     215        Q
     216        ;
     217ADDNV(GNV,GNVN,GNVF,GNVV)       ; CREATE AN ELEMENT OF THE MATRIX
     218        ;
     219        S @GNV@("F",GNVF)=$P(GNVV,"^",1)_"^"_$P(GNVV,"^",2) ;NAME=FILE^FIELD#
     220        S @GNV@("V",GNVN,GNVF,1)=$P(GNVV,"^",3) ;SET THE VALUE
     221        Q
     222        ;
     223RNF2CSV(RNRTN,RNIN,RNSTY)       ;CONVERTS AN RFN2 GLOBAL TO A CSV FORMAT
     224        ; READY TO WRITE FOR USE WITH EXCEL @RNRTN@(0) IS NUMBER OF LINES
     225        ; RNSTY IS STYLE OF THE OUTPUT -
     226        ; .. "NV"= ROWS ARE NAMES, COLUMNS ARE VALUES
     227        ; .. "VN"= ROWS ARE VALUES, COLUMNS ARE NAMES
     228        ; .. DEFAULT IS "NV" BECAUSE MANY MATRICES HAVE MORE FIELDS THAN VALUES
     229        N RNR,RNC ;ROW ROOT,COL ROOT
     230        N RNI,RNJ,RNX
     231        I '$D(RNSTY) S RNSTY="NV" ;DEFAULT
     232        I RNSTY="NV" D NV(RNRTN,RNIN)  ; INTERNAL SUBROUTINES DEPENDING ON ORIENTATION
     233        E  D VN(RNRTN,RNIN) ;
     234        Q
     235        ;
     236NV(RNRTN,RNIN)  ;
     237        S RNR=$NA(@RNIN@("F"))
     238        S RNC=$NA(@RNIN@("V"))
     239        ;S RNY=$P(@RNIN@(0),"^",1) ; FILE NUMBER
     240        S RNX="""FILE"""_"," ; FIRST COLUMN NAME IS "FIELD"
     241        S RNI=""
     242        F  S RNI=$O(@RNC@(RNI)) Q:RNI=""  D  ; FOR EACH COLUMN
     243        . S RNX=RNX_RNI_"," ;ADD THE COLUMM ELEMENT AND A COMMA
     244        S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
     245        D PUSH^GPLXPATH(RNRTN,RNX) ; FIRST LINE CONTAINS COLUMN HEADINGS
     246        S RNI=""
     247        F  S RNI=$O(@RNR@(RNI)) Q:RNI=""  D  ; FOR EACH ROW
     248        . S RNX=""""_RNI_""""_"," ; FIRST ELEMENT ON ROW IS THE FIELD
     249        . S RNJ=""
     250        . F  S RNJ=$O(@RNC@(RNJ)) Q:RNJ=""  D  ; FOR EACH COL
     251        . . I $D(@RNC@(RNJ,RNI,1)) D  ; THIS ROW HAS THIS COLUMN
     252        . . . S RNX=RNX_""""_@RNC@(RNJ,RNI,1)_""""_"," ; ADD THE ELEMENT PLUS A COMMA
     253        . . E  S RNX=RNX_"," ; NUL COLUMN
     254        . S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
     255        . D PUSH^GPLXPATH(RNRTN,RNX)
     256        Q
     257        ;
     258VN(RNRTN,RNIN)  ;
     259        S RNR=$NA(@RNIN@("V"))
     260        S RNC=$NA(@RNIN@("F"))
     261        ;S RNY=$P(@RNIN@(0),"^",1) ; FILE NUMBER
     262        S RNX="""FILE"""_"," ; FIRST COLUMN NAME IS "FIELD"
     263        S RNI=""
     264        F  S RNI=$O(@RNC@(RNI)) Q:RNI=""  D  ; FOR EACH COLUMN
     265        . S RNX=RNX_RNI_"," ;ADD THE COLUMM ELEMENT AND A COMMA
     266        S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
     267        D PUSH^GPLXPATH(RNRTN,RNX) ; FIRST LINE CONTAINS COLUMN HEADINGS
     268        S RNI=""
     269        F  S RNI=$O(@RNR@(RNI)) Q:RNI=""  D  ; FOR EACH ROW
     270        . S RNX=""""_RNI_""""_"," ; FIRST ELEMENT ON ROW IS THE FIELD
     271        . S RNJ=""
     272        . F  S RNJ=$O(@RNC@(RNJ)) Q:RNJ=""  D  ; FOR EACH COL
     273        . . I $D(@RNR@(RNI,RNJ,1)) D  ; THIS ROW HAS THIS COLUMN
     274        . . . S RNX=RNX_""""_@RNR@(RNI,RNJ,1)_""""_"," ; ADD THE ELEMENT PLUS A COMMA
     275        . . E  S RNX=RNX_"," ; NUL COLUMN
     276        . S RNX=$E(RNX,1,$L(RNX)-1) ; STRIP OFF THE LAST COMMA
     277        . D PUSH^GPLXPATH(RNRTN,RNX)
     278        Q
     279        ;
     280READCSV(PATH,NAME,GLB)  ; READ A CSV FILE IN FROM UNIX TO GLB, PASSED BY NAME
     281        ;
     282        Q $$FTG^%ZISH(PATH,NAME,GLB,1)
     283        ;
     284FILE2CSV(FNUM,FVN)      ; WRITES OUT A FILEMAN FILE TO CSV
     285        ;
     286        ;N G1,G2
     287        I '$D(FVN) S FVN="NV" ; DEFAULT ORIENTATION OF CVS FILE
     288        S G1=$NA(^TMP($J,"C0CCSV",1))
     289        S G2=$NA(^TMP($J,"C0CCSV",2))
     290        D GETN2(G1,FNUM) ; GET THE MATRIX
     291        D RNF2CSV(G2,G1,FVN) ; PREPARE THE CVS FILE
     292        K @G1
     293        D FILEOUT(G2,"FILE_"_FNUM_".csv")
     294        K @G2
     295        Q
     296        ;
     297FILEOUT(FOARY,FONAM)    ; WRITE OUT A FILE
     298        ;
     299        W $$OUTPUT^GPLXPATH($NA(@FOARY@(1)),FONAM,^TMP("GPLCCR","ODIR"))
     300        Q
     301        ;
     302FILEREF(FNUM)   ; EXTRINSIC THAT RETURNS A CLOSED ROOT FOR FILE NUMBER FNUM
     303        ;
     304        N C0CF
     305        S C0CF=^DIC(FNUM,0,"GL") ;OPEN ROOT TO FILE
     306        S C0CF=$P(C0CF,",",1)_")" ; CLOSE THE ROOT
     307        I C0CF["()" S C0CF=$P(C0CF,"()",1)
     308        Q C0CF
     309        ;
     310SKIP    ;
     311        N TXT,DIERR
     312        S TXT=$$GET1^DIQ(8925,TIUIEN,"2","","TXT")
     313        I $D(DIERR) D CLEAN^DILF Q
     314        W "  report_text:",!  ;Progress Note Text
     315        N LN S LN=0
     316        F  S LN=$O(TXT(LN)) Q:'LN  D
     317        . W "    text"_LN_": "_TXT(LN),!
     318        . Q
     319        Q
     320        ;
     321ZFILE(ZFN,ZTAB) ; EXTRINSIC TO RETURN FILE NUMBER FOR FIELD NAME PASSED
     322        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 1 OF @ZTAB@(ZFN)
     323        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     324        I '$D(ZTAB) S ZTAB="C0CA"
     325        Q $P(@ZTAB@(ZFN),"^",1)
     326ZFIELD(ZFN,ZTAB)        ;EXTRINSIC TO RETURN FIELD NUMBER FOR FIELD NAME PASSED
     327        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 2 OF @ZTAB@(ZFN)
     328        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     329        I '$D(ZTAB) S ZTAB="C0CA"
     330        Q $P(@ZTAB@(ZFN),"^",2)
     331ZVALUE(ZFN,ZTAB)        ;EXTRINSIC TO RETURN VALUE FOR FIELD NAME PASSED
     332        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF @ZTAB@(ZFN)
     333        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     334        I '$D(ZTAB) S ZTAB="C0CA"
     335        Q $P($G(@ZTAB@(ZFN)),"^",3)
     336        ;
     337ZVALUEI(ZFN,ZTAB)       ;EXTRINSIC TO RETURN INTERNAL VALUE FOR FIELD NAME PASSED
     338        ; BY VALUE IN ZFN. FILE NUMBER IS PIECE 3 OF @ZTAB@(ZFN)
     339        ; IF ZTAB IS NULL, IT DEFAULTS TO C0CA
     340        I '$D(ZTAB) S ZTAB="C0CA"
     341        Q $P($G(@ZTAB@(ZFN,"I")),"^",3)
     342        ;
  • ccr/branches/ohum/p/C0CRPMS.m

    r1332 r1333  
    1 C0CRPMS ; CCDCCR/GPL - CCR/CCD PROCESSING FOR RPMS ;1/14/09  14:33
    2  ;;0.1;CCDCCR;;JUL 16,2008;Build 7
    3  ;Copyright 2008 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  W "NO ENTRY FROM TOP",!
    21  Q
    22  ;
    23 DISPLAY ; RUN THE PCC DISPLAY ROUTINE
    24  D ^APCDDISP
    25  Q
    26  ;
    27 VTYPES ;
    28  D GETN2^C0CRNF("G1",9999999.07)
    29  ZWR G1
    30  Q
    31  ;
    32 VISITS(C0CDFN,C0CCNT) ;LIST VISIT DATES FOR PATIENT DFN
    33  ; C0CCNT IS A LIMIT ON HOW MANY VISITS TO DISPLAY ; DEFAULTS TO ALL
    34  I '$D(C0CCNT) S C0CCNT=999999999
    35  N G,GN
    36  S G="" S GN=0
    37  F  S G=$O(^AUPNVSIT("AA",C0CDFN,G)) Q:(G="")!(GN>C0CCNT)  D  ;
    38  . S GN=GN+1
    39  . W $$FMDTOUTC^C0CUTIL(9999999-G),!
    40  Q
    41  ;
    42 VISITS2(C0CDFN,C0CCNT) ;SECOND VERSION USING NEXTV
    43  ;
    44  N C0CG,GN
    45  S C0CG=""
    46  S GN=0
    47  I '$D(C0CCNT) S C0CCNT=99999999
    48  F  S C0CG=$$NEXTV(C0CDFN,C0CG) Q:(C0CG="")!(GN'<C0CCNT)  D  ;
    49  . S GN=GN+1
    50  . W $$FMDTOUTC^C0CUTIL(C0CG),!
    51  Q
    52  ;
    53 NEXTV(C0CDFN,C0CVDT) ;EXTRINSIC WHICH RETURNS THE NEXT VISIT DATE
    54  ;FOR PATIENT C0CDFN IN REVERSE TIME ORDER; PASS "" TO GET THE MOST
    55  ; RECENT VISIT
    56  N G
    57  S G=C0CVDT
    58  I G'="" S G=9999999-C0CVDT ;INVERT FOR INDEX
    59  S G=$O(^AUPNVSIT("AA",C0CDFN,G))
    60  I G="" Q ""
    61  E  Q 9999999-G
    62  ;
    63 GETV(C0CDFN,C0CVDT) ; GET VISIT USING DATE C0CVDT . IF C0CVDT IS NULL,
    64  ; GET MOST RECENT VISIT
    65  N C0CG
    66  I '$D(C0CVDT) S C0CVDT=$$NEXTV(C0CDFN,"")
    67  S APCDVLDT=C0CVDT
    68  S APCDPAT=C0CDFN
    69  D ^APCDVLK
    70  D ^APCDVD
    71  ;K APCDCLN,APCDCAT,APCDDATE,APCDLOC,APCDVSIT,APCDLOOK,APCDTYPE
    72  Q
    73  ;
    74 GETNV(C0CDFN) ;GET MANY VISITS
    75  ;
    76  S APCDPAT=C0CDFN ;
    77  N C0CG S C0CG=""
    78  F  S C0CG=$$NEXTV(C0CDFN,C0CG) Q:C0CG=""  D  ; LOOP BACKWARD THROUGH VISITS
    79  . W C0CG,"    ",$$FMDTOUTC^C0CUTIL(C0CG),!
    80  . S APCDVLDT=C0CG
    81  . D ^APCDVLK
    82  . D ^APCDVD
    83  . K APCDCLN,APCDCAT,APCDDATE,APCDLOC,APCDVSIT,APCDLOOK,APCDTYPE
    84  Q
    85  ;
    86 GETTBL(C0CTBL) ; SCAN FOR AND DISPLAY PATIENTS IN A RIMTBL, PASSED BY VALUE
    87  ;
    88  N ZG S ZG=$NA(^TMP("GPLRIM","RIMTBL","PATS",C0CTBL))
    89  N C0CG S C0CG=""
    90  N C0CQ S C0CQ=0
    91  F  S C0CG=$O(@ZG@(C0CG),-1) Q:(C0CG="")  D  ;
    92  . W "PAT: ",C0CG,!
    93  . D GETNV^C0CRPMS(C0CG)
    94  . K X R X
    95  . I X="Q" S C0CQ=1 ; QUIT IF Q
    96  Q
    97  ;
    98 CMPDRG ; COMPARE THE DRUG FILE TO THE VA VUID MAPPING FILE FOR MATCHES
    99  ;
    100  S C0CZI=0 ;
    101  F  S C0CZI=$O(^C0CDRUG("V",C0CZI)) Q:C0CZI=""  D  ;ALL DRUGS IN RPMS DRUG FILE
    102  . S C0CZJ="" ; FOR EVERY FIELD AND SUBFIELD IN THE DRUG FILE
    103  . ;W "C0CZI:",C0CZI
    104  . F  S C0CZJ=$O(^C0CDRUG("V",C0CZI,C0CZJ)) Q:C0CZJ=""  D  ;
    105  . . ;W " C0CZJ:",C0CZJ
    106  . . N C0CZN,C0CZV ;
    107  . . S C0CZN=^C0CDRUG("V",C0CZI,C0CZJ,1) ; EVERY FIELD VALUE
    108  . . ;W " C0CZN:",C0CZN,!
    109  . . D GETN1^C0CRNF("C0CZV",176.112,C0CZN,"C") ;LOOK IN C XREF
    110  . . I $D(C0CZV) D  ;FOUND A MATCH
    111  . . . S C0CVO="FOUND:^"_C0CZI_"^"_C0CZJ_"^"_C0CZN
    112  . . . S C0CVO=C0CVO_"^RXNORM:^"_$$ZVALUE^C0CRNF("MEDIATION CODE","C0CZV")
    113  . . . D PUSH^GPLXPATH("^C0CZRX",C0CVO)
    114  . . . W C0CVO,!
    115  Q
    116  ;
    117 CMPDRG2 ; COMPARE THE DRUG FILE TO THE VA VUID MAPPING FILE FOR MATCHES
    118  ;
    119  S C0CZI=0 ;
    120  F  S C0CZI=$O(^C0CDRUG("V",C0CZI)) Q:C0CZI=""  D  ;ALL DRUGS IN RPMS DRUG FILE
    121  . S C0CZJ="" ; FOR EVERY FIELD AND SUBFIELD IN THE DRUG FILE
    122  . W "C0CZI:",C0CZI
    123  . F  S C0CZJ=$O(^C0CDRUG("V",C0CZI,C0CZJ)) Q:C0CZJ=""  D  ;
    124  . . W " C0CZJ:",C0CZJ
    125  . . N C0CZN,C0CZV ;
    126  . . S C0CZN=^C0CDRUG("V",C0CZI,C0CZJ,1) ; EVERY FIELD VALUE
    127  . . W " C0CZN:",C0CZN,!
    128  . . D GETN1^C0CRNF("C0CZV",176.112,C0CZN,"C") ;LOOK IN C XREF
    129  . . I $D(C0CZV) D  ;FOUND A MATCH
    130  . . . W "FOUND: ",C0CZI," ",C0CZJ," ",C0CZN
    131  . . . W " VUID:",$$ZVALUE^C0CRNF("VUID","C0CZV"),!
    132  Q
    133  ;
     1C0CRPMS ; CCDCCR/GPL - CCR/CCD PROCESSING FOR RPMS ;1/14/09  14:33
     2        ;;0.1;CCDCCR;;JUL 16,2008;Build 1
     3        ;Copyright 2008 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        W "NO ENTRY FROM TOP",!
     21        Q
     22        ;
     23DISPLAY ; RUN THE PCC DISPLAY ROUTINE
     24        D ^APCDDISP
     25        Q
     26        ;
     27VTYPES  ;
     28        D GETN2^C0CRNF("G1",9999999.07)
     29        ZWR G1
     30        Q
     31        ;
     32VISITS(C0CDFN,C0CCNT)   ;LIST VISIT DATES FOR PATIENT DFN
     33        ; C0CCNT IS A LIMIT ON HOW MANY VISITS TO DISPLAY ; DEFAULTS TO ALL
     34        I '$D(C0CCNT) S C0CCNT=999999999
     35        N G,GN
     36        S G="" S GN=0
     37        F  S G=$O(^AUPNVSIT("AA",C0CDFN,G)) Q:(G="")!(GN>C0CCNT)  D  ;
     38        . S GN=GN+1
     39        . W $$FMDTOUTC^C0CUTIL(9999999-G),!
     40        Q
     41        ;
     42VISITS2(C0CDFN,C0CCNT)  ;SECOND VERSION USING NEXTV
     43        ;
     44        N C0CG,GN
     45        S C0CG=""
     46        S GN=0
     47        I '$D(C0CCNT) S C0CCNT=99999999
     48        F  S C0CG=$$NEXTV(C0CDFN,C0CG) Q:(C0CG="")!(GN'<C0CCNT)  D  ;
     49        . S GN=GN+1
     50        . W $$FMDTOUTC^C0CUTIL(C0CG),!
     51        Q
     52        ;
     53NEXTV(C0CDFN,C0CVDT)    ;EXTRINSIC WHICH RETURNS THE NEXT VISIT DATE
     54        ;FOR PATIENT C0CDFN IN REVERSE TIME ORDER; PASS "" TO GET THE MOST
     55        ; RECENT VISIT
     56        N G
     57        S G=C0CVDT
     58        I G'="" S G=9999999-C0CVDT ;INVERT FOR INDEX
     59        S G=$O(^AUPNVSIT("AA",C0CDFN,G))
     60        I G="" Q ""
     61        E  Q 9999999-G
     62        ;
     63GETV(C0CDFN,C0CVDT)     ; GET VISIT USING DATE C0CVDT . IF C0CVDT IS NULL,
     64        ; GET MOST RECENT VISIT
     65        N C0CG
     66        I '$D(C0CVDT) S C0CVDT=$$NEXTV(C0CDFN,"")
     67        S APCDVLDT=C0CVDT
     68        S APCDPAT=C0CDFN
     69        D ^APCDVLK
     70        D ^APCDVD
     71        ;K APCDCLN,APCDCAT,APCDDATE,APCDLOC,APCDVSIT,APCDLOOK,APCDTYPE
     72        Q
     73        ;
     74GETNV(C0CDFN)   ;GET MANY VISITS
     75        ;
     76        S APCDPAT=C0CDFN ;
     77        N C0CG S C0CG=""
     78        F  S C0CG=$$NEXTV(C0CDFN,C0CG) Q:C0CG=""  D  ; LOOP BACKWARD THROUGH VISITS
     79        . W C0CG,"    ",$$FMDTOUTC^C0CUTIL(C0CG),!
     80        . S APCDVLDT=C0CG
     81        . D ^APCDVLK
     82        . D ^APCDVD
     83        . K APCDCLN,APCDCAT,APCDDATE,APCDLOC,APCDVSIT,APCDLOOK,APCDTYPE
     84        Q
     85        ;
     86GETTBL(C0CTBL)  ; SCAN FOR AND DISPLAY PATIENTS IN A RIMTBL, PASSED BY VALUE
     87        ;
     88        N ZG S ZG=$NA(^TMP("GPLRIM","RIMTBL","PATS",C0CTBL))
     89        N C0CG S C0CG=""
     90        N C0CQ S C0CQ=0
     91        F  S C0CG=$O(@ZG@(C0CG),-1) Q:(C0CG="")  D  ;
     92        . W "PAT: ",C0CG,!
     93        . D GETNV^C0CRPMS(C0CG)
     94        . K X R X
     95        . I X="Q" S C0CQ=1 ; QUIT IF Q
     96        Q
     97        ;
     98CMPDRG  ; COMPARE THE DRUG FILE TO THE VA VUID MAPPING FILE FOR MATCHES
     99        ;
     100        S C0CZI=0 ;
     101        F  S C0CZI=$O(^C0CDRUG("V",C0CZI)) Q:C0CZI=""  D  ;ALL DRUGS IN RPMS DRUG FILE
     102        . S C0CZJ="" ; FOR EVERY FIELD AND SUBFIELD IN THE DRUG FILE
     103        . ;W "C0CZI:",C0CZI
     104        . F  S C0CZJ=$O(^C0CDRUG("V",C0CZI,C0CZJ)) Q:C0CZJ=""  D  ;
     105        . . ;W " C0CZJ:",C0CZJ
     106        . . N C0CZN,C0CZV ;
     107        . . S C0CZN=^C0CDRUG("V",C0CZI,C0CZJ,1) ; EVERY FIELD VALUE
     108        . . ;W " C0CZN:",C0CZN,!
     109        . . D GETN1^C0CRNF("C0CZV",176.112,C0CZN,"C") ;LOOK IN C XREF
     110        . . I $D(C0CZV) D  ;FOUND A MATCH
     111        . . . S C0CVO="FOUND:^"_C0CZI_"^"_C0CZJ_"^"_C0CZN
     112        . . . S C0CVO=C0CVO_"^RXNORM:^"_$$ZVALUE^C0CRNF("MEDIATION CODE","C0CZV")
     113        . . . D PUSH^GPLXPATH("^C0CZRX",C0CVO)
     114        . . . W C0CVO,!
     115        Q
     116        ;
     117CMPDRG2 ; COMPARE THE DRUG FILE TO THE VA VUID MAPPING FILE FOR MATCHES
     118        ;
     119        S C0CZI=0 ;
     120        F  S C0CZI=$O(^C0CDRUG("V",C0CZI)) Q:C0CZI=""  D  ;ALL DRUGS IN RPMS DRUG FILE
     121        . S C0CZJ="" ; FOR EVERY FIELD AND SUBFIELD IN THE DRUG FILE
     122        . W "C0CZI:",C0CZI
     123        . F  S C0CZJ=$O(^C0CDRUG("V",C0CZI,C0CZJ)) Q:C0CZJ=""  D  ;
     124        . . W " C0CZJ:",C0CZJ
     125        . . N C0CZN,C0CZV ;
     126        . . S C0CZN=^C0CDRUG("V",C0CZI,C0CZJ,1) ; EVERY FIELD VALUE
     127        . . W " C0CZN:",C0CZN,!
     128        . . D GETN1^C0CRNF("C0CZV",176.112,C0CZN,"C") ;LOOK IN C XREF
     129        . . I $D(C0CZV) D  ;FOUND A MATCH
     130        . . . W "FOUND: ",C0CZI," ",C0CZJ," ",C0CZN
     131        . . . W " VUID:",$$ZVALUE^C0CRNF("VUID","C0CZV"),!
     132        Q
     133        ;
  • ccr/branches/ohum/p/C0CRXN.m

    r1332 r1333  
    11C0CRXN    ; CCDCCR/GPL - CCR RXN utilities; 12/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CRXNRD.m

    r1332 r1333  
    1 C0CRXNRD ; WV/SMH - CCR/CCD PROJECT: Routine to Read RxNorm files;11/15/08
    2  ;;0.1;C0C;nopatch;noreleasedate
    3  W "No entry from top" Q
    4 IMPORT(PATH)
    5  I PATH="" QUIT
    6  D READSRC(PATH),READCON(PATH),READNDC(PATH)
    7  QUIT
    8  ;
    9 DELFILED(FN) ; Delete file data; PEP procedure; only for RxNorm files
    10  ; FN is Filenumber passed by Value
    11  QUIT:$E(FN,1,3)'=176  ; Quit if not RxNorm files
    12  D CLEAN^DILF ; Clean FM variables
    13  N ROOT S ROOT=$$ROOT^DILFD(FN,"",1) ; global root
    14  N ZERO S ZERO=@ROOT@(0) ; Save zero node
    15  S $P(ZERO,U,3,9999)="" ; Remove entry # and last edited
    16  K @ROOT ; Kill the file -- so sad!
    17  S @ROOT@(0)=ZERO ; It riseth again!
    18  QUIT
    19 GETLINES(PATH,FILENAME) ; Get number of lines in a file
    20  D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
    21  U IO
    22  N I
    23  F I=1:1 R LINE Q:$$STATUS^%ZISH
    24  D CLOSE^%ZISH("FILE")
    25  Q I-1
    26 READCON(PATH,INCRES) ; Open and read concepts file: RXNCONSO.RRF; EP
    27  ; PATH ByVal, path of RxNorm files
    28  ; INCRES ByVal, include restricted sources. 1 for yes, 0 for no
    29  I PATH="" QUIT
    30  S INCRES=+$G(INCRES) ; if not passed, becomes zero.
    31  N FILENAME S FILENAME="RXNCONSO.RRF"
    32  D DELFILED(176.001) ; delete data
    33  N LINES S LINES=$$GETLINES(PATH,FILENAME)
    34  D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
    35  IF POP D EN^DDIOL("Error reading file..., Please check...") G EX
    36  N C0CCOUNT
    37  F C0CCOUNT=1:1 D  Q:$$STATUS^%ZISH
    38  . U IO
    39  . N LINE R LINE
    40  . IF $$STATUS^%ZISH QUIT
    41  . I '(C0CCOUNT#1000) U $P W C0CCOUNT," of ",LINES," read ",! U IO ; update every 1000
    42  . N RXCUI,RXAUI,SAB,TTY,CODE,STR  ; Fileman fields numbers below
    43  . S RXCUI=$P(LINE,"|",1)       ; .01
    44  . S RXAUI=$P(LINE,"|",8)       ; 1
    45  . S SAB=$P(LINE,"|",12)        ; 2
    46  . ; If the source is a restricted source, decide what to do based on what's asked.
    47  . N SRCIEN S SRCIEN=$$FIND1^DIC(176.003,"","QX",SAB,"B") ; SrcIEN in RXNORM SOURCES file
    48  . N RESTRIC S RESTRIC=$$GET1^DIQ(176.003,SRCIEN,14,"I") ; 14 is restriction field; values 0-4
    49  . ; If RESTRIC is zero, then it's unrestricted. Everything else is restricted.
    50  . ; If user didn't ask to include restricted sources, and the source is restricted, then quit
    51  . I 'INCRES,RESTRIC QUIT
    52  . S TTY=$P(LINE,"|",13)        ; 3
    53  . S CODE=$P(LINE,"|",14)       ; 4
    54  . S STR=$P(LINE,"|",15)        ; 5
    55  . ; Remove embedded "^"
    56  . S STR=$TR(STR,"^")
    57  . ; Convert STR into an array of 80 characters on each line
    58  . N STRLINE S STRLINE=$L(STR)\80+1
    59  . ; In each line, chop 80 characters off, reset STR to be the rest
    60  . N J F J=1:1:STRLINE S STR(J)=$E(STR,1,80) S STR=$E(STR,81,$L(STR))
    61  . ; Now, construct the FDA array
    62  . N RXNFDA
    63  . S RXNFDA(176.001,"+1,",.01)=RXCUI
    64  . S RXNFDA(176.001,"+1,",1)=RXAUI
    65  . S RXNFDA(176.001,"+1,",2)=SAB
    66  . S RXNFDA(176.001,"+1,",3)=TTY
    67  . S RXNFDA(176.001,"+1,",4)=CODE
    68  . N RXNIEN S RXNIEN(1)=C0CCOUNT
    69  . D UPDATE^DIE("","RXNFDA","RXNIEN")
    70  . I $D(^TMP("DIERR",$J)) D EN^DDIOL("ERROR") G EX
    71  . ; Now, file WP field STR
    72  . D WP^DIE(176.001,C0CCOUNT_",",5,,$NA(STR))
    73 EX D CLOSE^%ZISH("FILE")
    74  QUIT
    75 READNDC(PATH) ; Open and read NDC/RxNorm/VANDF relationship file: RXNSAT.RRF
    76  I PATH="" QUIT
    77  N FILENAME S FILENAME="RXNSAT.RRF"
    78  D DELFILED(176.002) ; delete data
    79  N LINES S LINES=$$GETLINES(PATH,FILENAME)
    80  D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
    81  IF POP W "Error reading file..., Please check...",! G EX2
    82  F C0CCOUNT=1:1 Q:$$STATUS^%ZISH  D
    83  . U IO
    84  . N LINE R LINE
    85  . IF $$STATUS^%ZISH QUIT
    86  . I '(C0CCOUNT#1000) U $P W C0CCOUNT," of ",LINES," read ",! U IO ; update every 1000
    87  . IF LINE'["NDC|RXNORM"  QUIT
    88  . ; Otherwise, we are good to go
    89  . N RXCUI,NDC ; Fileman fields below
    90  . S RXCUI=$P(LINE,"|",1)       ; .01
    91  . S NDC=$P(LINE,"|",11)        ; 2
    92  . ; Using classic call to update.
    93  . N DIC,X,DA,DR
    94  . K DO
    95  . S DIC="^C0CRXN(176.002,",DIC(0)="F",X=RXCUI,DIC("DR")="2////"_NDC
    96  . D FILE^DICN
    97  . I Y<1 U $P W !,"THERE IS TROUBLE IN RIVER CITY",! G EX2
    98 EX2 D CLOSE^%ZISH("FILE")
    99  QUIT
    100 READSRC(PATH) ; Open the read RxNorm Sources file: RXNSAB.RRF
    101  I PATH="" QUIT
    102  N FILENAME S FILENAME="RXNSAB.RRF"
    103  D DELFILED(176.003) ; delete data
    104  D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
    105  IF POP W "Error reading file..., Please check...",! G EX3
    106  F I=1:1 Q:$$STATUS^%ZISH  D
    107  . U IO
    108  . N LINE R LINE
    109  . IF $$STATUS^%ZISH QUIT
    110  . U $P W I,! U IO  ; Write I to the screen, then go back to reading the file
    111  . N VCUI,RCUI,VSAB,RSAB,SON,SF,SVER,SRL,SCIT ; Fileman fields numbers below
    112  . S VCUI=$P(LINE,"|",1)        ; .01
    113  . S RCUI=$P(LINE,"|",2)        ; 2
    114  . S VSAB=$P(LINE,"|",3)        ; 3
    115  . S RSAB=$P(LINE,"|",4)        ; 4
    116  . S SON=$P(LINE,"|",5)         ; 5
    117  . S SF=$P(LINE,"|",6)          ; 6
    118  . S SVER=$P(LINE,"|",7)        ; 7
    119  . S SRL=$P(LINE,"|",14)                ; 14
    120  . S SCIT=$P(LINE,"|",25)       ; 25
    121  . ; Remove embedded "^"
    122  . S SCIT=$TR(SCIT,"^")
    123  . ; Convert SCIT into an array of 80 characters on each line
    124  . ; In each line, chop 80 characters off, reset SCIT to be the rest
    125  . N SCITLINE S SCITLINE=$L(SCIT)\80+1
    126  . F J=1:1:SCITLINE S SCIT(J)=$E(SCIT,1,80) S SCIT=$E(SCIT,81,$L(SCIT))
    127  . ; Now, construct the FDA array
    128  . N RXNFDA
    129  . S RXNFDA(176.003,"+"_I_",",.01)=VCUI
    130  . S RXNFDA(176.003,"+"_I_",",2)=RCUI
    131  . S RXNFDA(176.003,"+"_I_",",3)=VSAB
    132  . S RXNFDA(176.003,"+"_I_",",4)=RSAB
    133  . S RXNFDA(176.003,"+"_I_",",5)=SON
    134  . S RXNFDA(176.003,"+"_I_",",6)=SF
    135  . S RXNFDA(176.003,"+"_I_",",7)=SVER
    136  . S RXNFDA(176.003,"+"_I_",",14)=SRL
    137  . D UPDATE^DIE("","RXNFDA")
    138  . I $D(^TMP("DIERR",$J)) U $P W "ERR" G EX
    139  . ; Now, file WP field SCIT
    140  . D WP^DIE(176.003,I_",",25,,$NA(SCIT))
    141 EX3 D CLOSE^%ZISH("FILE")
    142  Q
    143 
     1C0CRXNRD        ; WV/SMH - CCR/CCD PROJECT: Routine to Read RxNorm files;11/15/08
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        W "No entry from top" Q
     4IMPORT(PATH)   
     5        I PATH="" QUIT
     6        D READSRC(PATH),READCON(PATH),READNDC(PATH)
     7        QUIT
     8        ;
     9DELFILED(FN)    ; Delete file data; PEP procedure; only for RxNorm files
     10        ; FN is Filenumber passed by Value
     11        QUIT:$E(FN,1,3)'=176  ; Quit if not RxNorm files
     12        D CLEAN^DILF ; Clean FM variables
     13        N ROOT S ROOT=$$ROOT^DILFD(FN,"",1) ; global root
     14        N ZERO S ZERO=@ROOT@(0) ; Save zero node
     15        S $P(ZERO,U,3,9999)="" ; Remove entry # and last edited
     16        K @ROOT ; Kill the file -- so sad!
     17        S @ROOT@(0)=ZERO ; It riseth again!
     18        QUIT
     19GETLINES(PATH,FILENAME) ; Get number of lines in a file
     20        D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
     21        U IO
     22        N I
     23        F I=1:1 R LINE Q:$$STATUS^%ZISH
     24        D CLOSE^%ZISH("FILE")
     25        Q I-1
     26READCON(PATH,INCRES)    ; Open and read concepts file: RXNCONSO.RRF; EP
     27        ; PATH ByVal, path of RxNorm files
     28        ; INCRES ByVal, include restricted sources. 1 for yes, 0 for no
     29        I PATH="" QUIT
     30        S INCRES=+$G(INCRES) ; if not passed, becomes zero.
     31        N FILENAME S FILENAME="RXNCONSO.RRF"
     32        D DELFILED(176.001) ; delete data
     33        N LINES S LINES=$$GETLINES(PATH,FILENAME)
     34        D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
     35        IF POP D EN^DDIOL("Error reading file..., Please check...") G EX
     36        N C0CCOUNT
     37        F C0CCOUNT=1:1 D  Q:$$STATUS^%ZISH
     38        . U IO
     39        . N LINE R LINE
     40        . IF $$STATUS^%ZISH QUIT
     41        . I '(C0CCOUNT#1000) U $P W C0CCOUNT," of ",LINES," read ",! U IO ; update every 1000
     42        . N RXCUI,RXAUI,SAB,TTY,CODE,STR  ; Fileman fields numbers below
     43        . S RXCUI=$P(LINE,"|",1)        ; .01
     44        . S RXAUI=$P(LINE,"|",8)        ; 1
     45        . S SAB=$P(LINE,"|",12) ; 2
     46        . ; If the source is a restricted source, decide what to do based on what's asked.
     47        . N SRCIEN S SRCIEN=$$FIND1^DIC(176.003,"","QX",SAB,"B") ; SrcIEN in RXNORM SOURCES file
     48        . N RESTRIC S RESTRIC=$$GET1^DIQ(176.003,SRCIEN,14,"I") ; 14 is restriction field; values 0-4
     49        . ; If RESTRIC is zero, then it's unrestricted. Everything else is restricted.
     50        . ; If user didn't ask to include restricted sources, and the source is restricted, then quit
     51        . I 'INCRES,RESTRIC QUIT
     52        . S TTY=$P(LINE,"|",13) ; 3
     53        . S CODE=$P(LINE,"|",14)        ; 4
     54        . S STR=$P(LINE,"|",15) ; 5
     55        . ; Remove embedded "^"
     56        . S STR=$TR(STR,"^")
     57        . ; Convert STR into an array of 80 characters on each line
     58        . N STRLINE S STRLINE=$L(STR)\80+1
     59        . ; In each line, chop 80 characters off, reset STR to be the rest
     60        . N J F J=1:1:STRLINE S STR(J)=$E(STR,1,80) S STR=$E(STR,81,$L(STR))
     61        . ; Now, construct the FDA array
     62        . N RXNFDA
     63        . S RXNFDA(176.001,"+1,",.01)=RXCUI
     64        . S RXNFDA(176.001,"+1,",1)=RXAUI
     65        . S RXNFDA(176.001,"+1,",2)=SAB
     66        . S RXNFDA(176.001,"+1,",3)=TTY
     67        . S RXNFDA(176.001,"+1,",4)=CODE
     68        . N RXNIEN S RXNIEN(1)=C0CCOUNT
     69        . D UPDATE^DIE("","RXNFDA","RXNIEN")
     70        . I $D(^TMP("DIERR",$J)) D EN^DDIOL("ERROR") G EX
     71        . ; Now, file WP field STR
     72        . D WP^DIE(176.001,C0CCOUNT_",",5,,$NA(STR))
     73EX      D CLOSE^%ZISH("FILE")
     74        QUIT
     75READNDC(PATH)   ; Open and read NDC/RxNorm/VANDF relationship file: RXNSAT.RRF
     76        I PATH="" QUIT
     77        N FILENAME S FILENAME="RXNSAT.RRF"
     78        D DELFILED(176.002) ; delete data
     79        N LINES S LINES=$$GETLINES(PATH,FILENAME)
     80        D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
     81        IF POP W "Error reading file..., Please check...",! G EX2
     82        F C0CCOUNT=1:1 Q:$$STATUS^%ZISH  D
     83        . U IO
     84        . N LINE R LINE
     85        . IF $$STATUS^%ZISH QUIT
     86        . I '(C0CCOUNT#1000) U $P W C0CCOUNT," of ",LINES," read ",! U IO ; update every 1000
     87        . IF LINE'["NDC|RXNORM"  QUIT
     88        . ; Otherwise, we are good to go
     89        . N RXCUI,NDC ; Fileman fields below
     90        . S RXCUI=$P(LINE,"|",1)        ; .01
     91        . S NDC=$P(LINE,"|",11) ; 2
     92        . ; Using classic call to update.
     93        . N DIC,X,DA,DR
     94        . K DO
     95        . S DIC="^C0CRXN(176.002,",DIC(0)="F",X=RXCUI,DIC("DR")="2////"_NDC
     96        . D FILE^DICN
     97        . I Y<1 U $P W !,"THERE IS TROUBLE IN RIVER CITY",! G EX2
     98EX2     D CLOSE^%ZISH("FILE")
     99        QUIT
     100READSRC(PATH)   ; Open the read RxNorm Sources file: RXNSAB.RRF
     101        I PATH="" QUIT
     102        N FILENAME S FILENAME="RXNSAB.RRF"
     103        D DELFILED(176.003) ; delete data
     104        D OPEN^%ZISH("FILE",PATH,FILENAME,"R")
     105        IF POP W "Error reading file..., Please check...",! G EX3
     106        F I=1:1 Q:$$STATUS^%ZISH  D
     107        . U IO
     108        . N LINE R LINE
     109        . IF $$STATUS^%ZISH QUIT
     110        . U $P W I,! U IO  ; Write I to the screen, then go back to reading the file
     111        . N VCUI,RCUI,VSAB,RSAB,SON,SF,SVER,SRL,SCIT ; Fileman fields numbers below
     112        . S VCUI=$P(LINE,"|",1)        ; .01
     113        . S RCUI=$P(LINE,"|",2)        ; 2
     114        . S VSAB=$P(LINE,"|",3)        ; 3
     115        . S RSAB=$P(LINE,"|",4)        ; 4
     116        . S SON=$P(LINE,"|",5)         ; 5
     117        . S SF=$P(LINE,"|",6)          ; 6
     118        . S SVER=$P(LINE,"|",7)        ; 7
     119        . S SRL=$P(LINE,"|",14)         ; 14
     120        . S SCIT=$P(LINE,"|",25)       ; 25
     121        . ; Remove embedded "^"
     122        . S SCIT=$TR(SCIT,"^")
     123        . ; Convert SCIT into an array of 80 characters on each line
     124        . ; In each line, chop 80 characters off, reset SCIT to be the rest
     125        . N SCITLINE S SCITLINE=$L(SCIT)\80+1
     126        . F J=1:1:SCITLINE S SCIT(J)=$E(SCIT,1,80) S SCIT=$E(SCIT,81,$L(SCIT))
     127        . ; Now, construct the FDA array
     128        . N RXNFDA
     129        . S RXNFDA(176.003,"+"_I_",",.01)=VCUI
     130        . S RXNFDA(176.003,"+"_I_",",2)=RCUI
     131        . S RXNFDA(176.003,"+"_I_",",3)=VSAB
     132        . S RXNFDA(176.003,"+"_I_",",4)=RSAB
     133        . S RXNFDA(176.003,"+"_I_",",5)=SON
     134        . S RXNFDA(176.003,"+"_I_",",6)=SF
     135        . S RXNFDA(176.003,"+"_I_",",7)=SVER
     136        . S RXNFDA(176.003,"+"_I_",",14)=SRL
     137        . D UPDATE^DIE("","RXNFDA")
     138        . I $D(^TMP("DIERR",$J)) U $P W "ERR" G EX
     139        . ; Now, file WP field SCIT
     140        . D WP^DIE(176.003,I_",",25,,$NA(SCIT))
     141EX3     D CLOSE^%ZISH("FILE")
     142        Q
     143       
  • ccr/branches/ohum/p/C0CSNOA.m

    r1332 r1333  
    1 C0CSNOA   ; CCDCCR/GPL - SNOMED CT ANALYSIS ROUTINES; 10/14/08
    2  ;;0.1;CCDCCR;nopatch;noreleasedate
    3  ;Copyright 2008,2009 George Lilly, University of Minnesota.
    4  ;Licensed under the terms of the GNU General Public License.
    5  ;See attached copy of the License.
    6  ;
    7  ;This program is free software; you can redistribute it and/or modify
    8  ;it under the terms of the GNU General Public License as published by
    9  ;the Free Software Foundation; either version 2 of the License, or
    10  ;(at your option) any later version.
    11  ;
    12  ;This program is distributed in the hope that it will be useful,
    13  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    14  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    15  ;GNU General Public License for more details.
    16  ;
    17  ;You should have received a copy of the GNU General Public License along
    18  ;with this program; if not, write to the Free Software Foundation, Inc.,
    19  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    20  ;
    21  ; THESE ROUTINES ANALYZE THE POTENTIAL RETRIEVAL OF SNOMED CT CODES
    22  ; FOR PATIENT DRUG ALLERGIES FOR INCLUSION IN THE CCR OR CCD
    23  ; USING THE VISTA LEXICON ^LEX
    24  ;
    25 ANALYZE(BEGIEN,IENCNT) ; SNOMED RETRIEVAL ANALYSIS ROUTINE
    26     ; BEGINS AT BEGIEN AND GOES FOR IENCNT DRUGS IN GMRD
    27     ; TO RESUME AT NEXT DRUG, USE BEGIEN=""
    28     ; USE RESET^C0CSNOA TO RESET TO TOP OF DRUG LIST
    29     ;
    30     N SNOARY,SNOTMP,SNOI,SNOIEN,RATTR
    31     N CCRGLO
    32     D ASETUP ; SET UP VARIABLES AND GLOBALS
    33     D AINIT ; INITIALIZE ATTRIBUTE VALUE TABLE
    34     I '$D(@SNOBASE@("RESUME")) S @SNOBASE@("RESUME")=$O(@GMRBASE@(1)) ;1ST TME
    35     S RESUME=@SNOBASE@("RESUME") ; WHERE WE LEFT OFF LAST RUN
    36     S SNOIEN=BEGIEN ; BEGIN WITH THE BEGIEN RECORD
    37     I SNOIEN="" S SNOIEN=RESUME
    38     I +SNOIEN=0 D  Q  ; AT THE END OF THE ALLERGY LIST
    39     . W "END OF DRUG LIST, CALL RESET^C0CSNOA",!
    40     F SNOI=1:1:IENCNT  D  Q:+SNOIEN=0  ; FOR IENCNT NUMBER OF PATIENTS OR END
    41     . ;D CCRRPC^C0CCCR(.CCRGLO,SNOIEN,"CCR","","","") ;PROCESS THE CCR
    42     . W SNOIEN,@GMRBASE@(SNOIEN,0),!
    43     . N SNORTN,TTERM ; RETURN ARRAY
    44     . S TTERM=$P(@GMRBASE@(SNOIEN,0),"^",1)_" ALLERGY"
    45     . D TEXTRPC(.SNORTN,TTERM)
    46     . I $D(SNORTN) ZWR SNORTN
    47     . K @SNOBASE@("VARS",SNOIEN) ; CLEAR OUT OLD VARS
    48     . I $P(TTMP,"^",1)=1 S @SNOBASE@("VARS",SNOIEN)=TTERM_"^"_TTMP_"^"_SNORTN(0)
    49     . ;
    50     . ; EVALUATE THE VARIABLES AND CREATE AN ATTRIBUTE MAP
    51     . ;
    52     . S RATTR=$$SETATTR(SNOIEN) ; SET THE ATTRIBUTE STRING BASED ON THE VARS
    53     . S @SNOBASE@("ATTR",SNOIEN)=RATTR ; SAVE THE ATRIBUTES FOR THIS DRUG
    54     . ;
    55     . N CATNAME,CATTBL
    56     . S CATNAME=""
    57     . D CPUSH(.CATNAME,SNOBASE,"SNOTBL",SNOIEN,RATTR) ; ADD TO CATEGORY
    58     . ; W "CATEGORY NAME: ",CATNAME,!
    59     . ;
    60     . S SNOIEN=$O(@GMRBASE@(SNOIEN)) ; NEXT RECORD
    61     . S @SNOBASE@("RESUME")=SNOIEN ; WHERE WE ARE LEAVING OFF THIS RUN
    62     ; D PARY^C0CXPATH(@SNOBASE@("ATTRTBL"))
    63     Q
    64     ;
    65 TEXTRPC(ORTN,ITEXT) ; CALL THE LEXICON WITH ITEXT AND RETURN RESULTS IN ORTN
    66  ;
    67  ;N TTMP
    68  W ITEXT,!
    69  S TTMP=$$TEXT^LEXTRAN(ITEXT,"","","SCT","ORTN")
    70  Q
    71  ;
    72 ASETUP ; SET UP GLOBALS AND VARS SNOBASE AND SNOTBL
    73       I '$D(SNOBASE) S SNOBASE=$NA(^TMP("C0CSNO"))
    74       I '$D(@SNOBASE) S @SNOBASE=""
    75       I '$D(GMRBASE) S GMRBASE=$NA(^GMRD(120.82))
    76       I '$D(SNOTBL) S SNOTBL=$NA(^TMP("C0CSNO","SNOTBL","TABLE")) ; ATTR TABLE
    77       S ^TMP("C0CSNO","TABLES","SNOTBL")=SNOTBL ; TABLE OF TABLES
    78       Q
    79       ;
    80 AINIT ; INITIALIZE ATTRIBUTE TABLE
    81       I '$D(SNOBASE) D ASETUP ; FOR COMMAND LINE CALLS
    82       K @SNOTBL
    83       D APUSH^C0CRIMA(SNOTBL,"CODE")
    84       D APUSH^C0CRIMA(SNOTBL,"NOCODE")
    85       D APUSH^C0CRIMA(SNOTBL,"MULTICODE")
    86       D APUSH^C0CRIMA(SNOTBL,"SUBMULTI")
    87       D APUSH^C0CRIMA(SNOTBL,"DONE")
    88       Q
    89 APOST(PRSLT,PTBL,PVAL) ; POST AN ATTRIBUTE PVAL TO PRSLT USING PTBL
    90     ; PSRLT AND PTBL ARE PASSED BY NAME. PVAL IS A STRING
    91     ; PTBL IS THE NAME OF A TABLE IN @SNOBASE@("TABLES") - "SNOTBL"=ALL VALUES
    92     ; PVAL WILL BE PLACED IN THE STRING PRSLT AT $P(X,U,@PTBL@(PVAL))
    93     I '$D(SNOBASE) D ASETUP ; FOR COMMANDLINE PROCESSING
    94     N USETBL
    95     I '$D(@SNOBASE@("TABLES",PTBL)) D  Q  ; NO TABLE
    96     . W "ERROR NO SUCH TABLE",!
    97     S USETBL=@SNOBASE@("TABLES",PTBL)
    98     S $P(@PRSLT,U,@USETBL@(PVAL))=PVAL
    99     Q
    100 SETATTR(SDFN) ; SET ATTRIBUTES BASED ON VARS
    101     N SBASE,SATTR
    102     S SBASE=$NA(@SNOBASE@("VARS",SDFN))
    103     D APOST("SATTR","SNOTBL","DONE")
    104     I $P(TTMP,"^",1)=1 D APOST("SATTR","SNOTBL","CODE")
    105     I $P(TTMP,"^",1)=-1 D APOST("SATTR","SNOTBL","NOCODE")
    106     Q SATTR  ; C0C
    107     I $D(@SBASE@("PROBLEMS",1)) D  ;
    108     . D APOST("SATTR","SNOTBL","PROBLEMS")
    109     . ; W "POSTING PROBLEMS",!
    110     I $D(@SBASE@("VITALS",1)) D APOST("SATTR","SNOTBL","VITALS")
    111     I $D(@SBASE@("MEDS",1)) D  ; IF THE PATIENT HAS MEDS VARIABLES
    112     . D APOST("SATTR","SNOTBL","MEDS")
    113     . N ZR,ZI
    114     . D GETPA^C0CRIMA(.ZR,SDFN,"MEDS","MEDPRODUCTNAMECODEVALUE") ;CHECK FOR MED CODES
    115     . I ZR(0)>0 D  ; VAR LOOKUP WAS GOOD, CHECK FOR NON=NULL RETURN
    116     . . F ZI=1:1:ZR(0) D  ; LOOP THROUGH RETURNED VAR^VALUE PAIRS
    117     . . . I $P(ZR(ZI),"^",2)'="" D APOST("SATTR","SNOTBL","MEDSCODE") ;CODES
    118     . ; D PATD^C0CSNOA(2,"MEDS","MEDPRODUCTNAMECODEVALUE") CHECK FOR MED CODES
    119     D APOST("SATTR","SNOTBL","NOTEXTRACTED") ; OUTPUT NOT YET PRODUCED
    120     ; W "ATTRIBUTES: ",SATTR,!
    121     Q SATTR
    122     ;
    123 RESET ; KILL RESUME INDICATOR TO START OVER. ALSO KILL SNO TMP VALUES
    124     K ^TMP("C0CSNO","RESUME")
    125     K ^TMP("C0CSNO")
    126     Q
    127     ;
    128 CLIST ; LIST THE CATEGORIES
    129     ;
    130     I '$D(SNOBASE) D ASETUP ; FOR COMMAND LINE CALLS
    131     N CLBASE,CLNUM,ZI,CLIDX
    132     S CLBASE=$NA(@SNOBASE@("SNOTBL","CATS"))
    133     S CLNUM=@CLBASE@(0)
    134     F ZI=1:1:CLNUM D  ; LOOP THROUGH THE CATEGORIES
    135     . S CLIDX=@CLBASE@(ZI)
    136     . W "(",$P(@CLBASE@(CLIDX),"^",1)
    137     . W ":",$P(@CLBASE@(CLIDX),"^",2),") "
    138     . W CLIDX,!
    139     ; D PARY^C0CXPATH(CLBASE)
    140     Q
    141     ;
    142 CPUSH(CATRTN,CBASE,CTBL,CDFN,CATTR) ; ADD PATIENTS TO CATEGORIES
    143     ; AND PASS BACK THE NAME OF THE CATEGORY TO WHICH THE PATIENT
    144     ; WAS ADDED IN CATRTN, WHICH IS PASSED BY REFERENCE
    145     ; CBASE IS WHERE TO PUT THE CATEGORIES PASSED BY NAME
    146     ; CTBL IS THE NAME OF THE TABLE USED TO CREATE THE ATTRIBUTES,
    147     ; PASSED BY NAME AND USED TO CREATE CATEGORY NAMES IE "@CTBL_X"
    148     ; WHERE X IS THE CATEGORY NUMBER. CTBL(0) IS THE NUMBER OF CATEGORIES
    149     ; CATBL(X)=CATTR STORES THE ATTRIBUTE IN THE CATEGORY
    150     ; CDFN IS THE PATIENT DFN, CATTR IS THE ATTRIBUTE STRING
    151     ; THE LIST OF PATIENTS IN A CATEGORY IS STORED INDEXED BY CATEGORY
    152     ; NUMBER IE CTBL_X(CDFN)=""
    153     ;
    154     ; N CCTBL,CENTRY,CNUM,CCOUNT,CPATLIST
    155     S CCTBL=$NA(@CBASE@(CTBL,"CATS"))
    156     ; W "CBASE: ",CCTBL,!
    157     ;
    158     I '$D(@CCTBL@(CATTR)) D  ; FIRST PATIENT IN THIS CATEGORY
    159     . D PUSH^C0CXPATH(CCTBL,CATTR) ; ADD THE CATEGORY TO THE ARRAY
    160     . S CNUM=@CCTBL@(0) ; ARRAY ENTRY NUMBER FOR THIS CATEGORY
    161     . S CENTRY=CTBL_"_"_CNUM_U_0 ; TABLE ENTRY DEFAULT
    162     . S @CCTBL@(CATTR)=CENTRY ; DEFAULT NON INCREMENTED TABLE ENTRY
    163     . ; NOTE THAT P1 IS THE CATEGORY NAME MADE UP OF THE TABLE NAME
    164     . ; AND CATGORY ARRAY NUMBER. P2 IS THE COUNT WHICH IS INITIALLY 0
    165     ;
    166     S CCOUNT=$P(@CCTBL@(CATTR),U,2) ; COUNT OF PATIENTS IN THIS CATEGORY
    167     S CCOUNT=CCOUNT+1 ; INCREMENT THE COUNT
    168     S $P(@CCTBL@(CATTR),U,2)=CCOUNT ; PUT IT BACK
    169     ;
    170     S CATRTN=$P(@CCTBL@(CATTR),U,1) ; THE CATEGORY NAME WHICH IS RETURNED
    171     ;
    172     S CPATLIST=$NA(@CBASE@(CTBL,"IENS",CATRTN)) ; BASE OF PAT LIST FOR THIS CAT
    173     ; W "IENS BASE: ",CPATLIST,!
    174     S @CPATLIST@(CDFN)="" ; ADD THIS PATIENT TO THE CAT PAT LIST
    175     ;
    176     Q
    177     ;
    178 REUSE ; GET SAVED VALUES FROM ^TMP("C0CSAV") AND PUT THEM IN A DATABASE
    179  ;
    180  D ASETUP
    181  D AINIT
    182  N SNOI,SNOJ,SNOK,SNOSNO,SNOSEC,SNOIEN,SNOOLD,SNOSRCH
    183  S SAVBASE=$NA(^TMP("C0CSAV","VARS"))
    184  S SNOI=""
    185  F  D  Q:$O(@SAVBASE@(SNOI))="" ;THE WHOLE LIST
    186  . S SNOI=$O(@SAVBASE@(SNOI))
    187  . S SNOJ=@SAVBASE@(SNOI)
    188  . S SNOK=$P($P(SNOJ,"^",1)," ALLERGY",1)
    189  . S SNOSRCH=$P(SNOJ,"^",1) ;SEARCH TERM USED TO OBTAIN SNOMED CODE
    190  . S SNOIEN=$P(SNOJ,"^",3) ; IEN OF ELEMENT IN LEXICON
    191  . S SNOSNO=$P(SNOJ,"^",4) ; SNOMED CODE
    192  . S SNOSEC=$P(SNOJ,"^",5) ; SECTION OF SNOMED FOR THIS CODE
    193  . S SNOOLD=$P(SNOJ,"^",7) ; OLD NUMBER FOR THIS CODE
    194  . W "SEARCH:",SNOSRCH," IEN:",SNOIEN," CODE:",SNOSNO," SEC:",SNOSEC," OLD:",SNOOLD,!
    195  . W SNOK,!
    196  . W SNOJ,!
    197  Q
    198  ;
     1C0CSNOA   ; CCDCCR/GPL - SNOMED CT ANALYSIS ROUTINES; 10/14/08
     2        ;;0.1;CCDCCR;nopatch;noreleasedate;Build 1
     3        ;Copyright 2008,2009 George Lilly, University of Minnesota.
     4        ;Licensed under the terms of the GNU General Public License.
     5        ;See attached copy of the License.
     6        ;
     7        ;This program is free software; you can redistribute it and/or modify
     8        ;it under the terms of the GNU General Public License as published by
     9        ;the Free Software Foundation; either version 2 of the License, or
     10        ;(at your option) any later version.
     11        ;
     12        ;This program is distributed in the hope that it will be useful,
     13        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     14        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     15        ;GNU General Public License for more details.
     16        ;
     17        ;You should have received a copy of the GNU General Public License along
     18        ;with this program; if not, write to the Free Software Foundation, Inc.,
     19        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     20        ;
     21        ; THESE ROUTINES ANALYZE THE POTENTIAL RETRIEVAL OF SNOMED CT CODES
     22        ; FOR PATIENT DRUG ALLERGIES FOR INCLUSION IN THE CCR OR CCD
     23        ; USING THE VISTA LEXICON ^LEX
     24        ;
     25ANALYZE(BEGIEN,IENCNT)  ; SNOMED RETRIEVAL ANALYSIS ROUTINE
     26           ; BEGINS AT BEGIEN AND GOES FOR IENCNT DRUGS IN GMRD
     27           ; TO RESUME AT NEXT DRUG, USE BEGIEN=""
     28           ; USE RESET^C0CSNOA TO RESET TO TOP OF DRUG LIST
     29           ;
     30           N SNOARY,SNOTMP,SNOI,SNOIEN,RATTR
     31           N CCRGLO
     32           D ASETUP ; SET UP VARIABLES AND GLOBALS
     33           D AINIT ; INITIALIZE ATTRIBUTE VALUE TABLE
     34           I '$D(@SNOBASE@("RESUME")) S @SNOBASE@("RESUME")=$O(@GMRBASE@(1)) ;1ST TME
     35           S RESUME=@SNOBASE@("RESUME") ; WHERE WE LEFT OFF LAST RUN
     36           S SNOIEN=BEGIEN ; BEGIN WITH THE BEGIEN RECORD
     37           I SNOIEN="" S SNOIEN=RESUME
     38           I +SNOIEN=0 D  Q  ; AT THE END OF THE ALLERGY LIST
     39           . W "END OF DRUG LIST, CALL RESET^C0CSNOA",!
     40           F SNOI=1:1:IENCNT  D  Q:+SNOIEN=0  ; FOR IENCNT NUMBER OF PATIENTS OR END
     41           . ;D CCRRPC^C0CCCR(.CCRGLO,SNOIEN,"CCR","","","") ;PROCESS THE CCR
     42           . W SNOIEN,@GMRBASE@(SNOIEN,0),!
     43           . N SNORTN,TTERM ; RETURN ARRAY
     44           . S TTERM=$P(@GMRBASE@(SNOIEN,0),"^",1)_" ALLERGY"
     45           . D TEXTRPC(.SNORTN,TTERM)
     46           . I $D(SNORTN) ZWR SNORTN
     47           . K @SNOBASE@("VARS",SNOIEN) ; CLEAR OUT OLD VARS
     48           . I $P(TTMP,"^",1)=1 S @SNOBASE@("VARS",SNOIEN)=TTERM_"^"_TTMP_"^"_SNORTN(0)
     49           . ;
     50           . ; EVALUATE THE VARIABLES AND CREATE AN ATTRIBUTE MAP
     51           . ;
     52           . S RATTR=$$SETATTR(SNOIEN) ; SET THE ATTRIBUTE STRING BASED ON THE VARS
     53           . S @SNOBASE@("ATTR",SNOIEN)=RATTR ; SAVE THE ATRIBUTES FOR THIS DRUG
     54           . ;
     55           . N CATNAME,CATTBL
     56           . S CATNAME=""
     57           . D CPUSH(.CATNAME,SNOBASE,"SNOTBL",SNOIEN,RATTR) ; ADD TO CATEGORY
     58           . ; W "CATEGORY NAME: ",CATNAME,!
     59           . ;
     60           . S SNOIEN=$O(@GMRBASE@(SNOIEN)) ; NEXT RECORD
     61           . S @SNOBASE@("RESUME")=SNOIEN ; WHERE WE ARE LEAVING OFF THIS RUN
     62           ; D PARY^C0CXPATH(@SNOBASE@("ATTRTBL"))
     63           Q
     64           ;
     65TEXTRPC(ORTN,ITEXT)     ; CALL THE LEXICON WITH ITEXT AND RETURN RESULTS IN ORTN
     66        ;
     67        ;N TTMP
     68        W ITEXT,!
     69        S TTMP=$$TEXT^LEXTRAN(ITEXT,"","","SCT","ORTN")
     70        Q
     71        ;
     72ASETUP  ; SET UP GLOBALS AND VARS SNOBASE AND SNOTBL
     73             I '$D(SNOBASE) S SNOBASE=$NA(^TMP("C0CSNO"))
     74             I '$D(@SNOBASE) S @SNOBASE=""
     75             I '$D(GMRBASE) S GMRBASE=$NA(^GMRD(120.82))
     76             I '$D(SNOTBL) S SNOTBL=$NA(^TMP("C0CSNO","SNOTBL","TABLE")) ; ATTR TABLE
     77             S ^TMP("C0CSNO","TABLES","SNOTBL")=SNOTBL ; TABLE OF TABLES
     78             Q
     79             ;
     80AINIT   ; INITIALIZE ATTRIBUTE TABLE
     81             I '$D(SNOBASE) D ASETUP ; FOR COMMAND LINE CALLS
     82             K @SNOTBL
     83             D APUSH^C0CRIMA(SNOTBL,"CODE")
     84             D APUSH^C0CRIMA(SNOTBL,"NOCODE")
     85             D APUSH^C0CRIMA(SNOTBL,"MULTICODE")
     86             D APUSH^C0CRIMA(SNOTBL,"SUBMULTI")
     87             D APUSH^C0CRIMA(SNOTBL,"DONE")
     88             Q
     89APOST(PRSLT,PTBL,PVAL)  ; POST AN ATTRIBUTE PVAL TO PRSLT USING PTBL
     90           ; PSRLT AND PTBL ARE PASSED BY NAME. PVAL IS A STRING
     91           ; PTBL IS THE NAME OF A TABLE IN @SNOBASE@("TABLES") - "SNOTBL"=ALL VALUES
     92           ; PVAL WILL BE PLACED IN THE STRING PRSLT AT $P(X,U,@PTBL@(PVAL))
     93           I '$D(SNOBASE) D ASETUP ; FOR COMMANDLINE PROCESSING
     94           N USETBL
     95           I '$D(@SNOBASE@("TABLES",PTBL)) D  Q  ; NO TABLE
     96           . W "ERROR NO SUCH TABLE",!
     97           S USETBL=@SNOBASE@("TABLES",PTBL)
     98           S $P(@PRSLT,U,@USETBL@(PVAL))=PVAL
     99           Q
     100SETATTR(SDFN)   ; SET ATTRIBUTES BASED ON VARS
     101           N SBASE,SATTR
     102           S SBASE=$NA(@SNOBASE@("VARS",SDFN))
     103           D APOST("SATTR","SNOTBL","DONE")
     104           I $P(TTMP,"^",1)=1 D APOST("SATTR","SNOTBL","CODE")
     105           I $P(TTMP,"^",1)=-1 D APOST("SATTR","SNOTBL","NOCODE")
     106           Q SATTR  ; C0C
     107           I $D(@SBASE@("PROBLEMS",1)) D  ;
     108           . D APOST("SATTR","SNOTBL","PROBLEMS")
     109           . ; W "POSTING PROBLEMS",!
     110           I $D(@SBASE@("VITALS",1)) D APOST("SATTR","SNOTBL","VITALS")
     111           I $D(@SBASE@("MEDS",1)) D  ; IF THE PATIENT HAS MEDS VARIABLES
     112           . D APOST("SATTR","SNOTBL","MEDS")
     113           . N ZR,ZI
     114           . D GETPA^C0CRIMA(.ZR,SDFN,"MEDS","MEDPRODUCTNAMECODEVALUE") ;CHECK FOR MED CODES
     115           . I ZR(0)>0 D  ; VAR LOOKUP WAS GOOD, CHECK FOR NON=NULL RETURN
     116           . . F ZI=1:1:ZR(0) D  ; LOOP THROUGH RETURNED VAR^VALUE PAIRS
     117           . . . I $P(ZR(ZI),"^",2)'="" D APOST("SATTR","SNOTBL","MEDSCODE") ;CODES
     118           . ; D PATD^C0CSNOA(2,"MEDS","MEDPRODUCTNAMECODEVALUE") CHECK FOR MED CODES
     119           D APOST("SATTR","SNOTBL","NOTEXTRACTED") ; OUTPUT NOT YET PRODUCED
     120           ; W "ATTRIBUTES: ",SATTR,!
     121           Q SATTR
     122           ;
     123RESET   ; KILL RESUME INDICATOR TO START OVER. ALSO KILL SNO TMP VALUES
     124           K ^TMP("C0CSNO","RESUME")
     125           K ^TMP("C0CSNO")
     126           Q
     127           ;
     128CLIST   ; LIST THE CATEGORIES
     129           ;
     130           I '$D(SNOBASE) D ASETUP ; FOR COMMAND LINE CALLS
     131           N CLBASE,CLNUM,ZI,CLIDX
     132           S CLBASE=$NA(@SNOBASE@("SNOTBL","CATS"))
     133           S CLNUM=@CLBASE@(0)
     134           F ZI=1:1:CLNUM D  ; LOOP THROUGH THE CATEGORIES
     135           . S CLIDX=@CLBASE@(ZI)
     136           . W "(",$P(@CLBASE@(CLIDX),"^",1)
     137           . W ":",$P(@CLBASE@(CLIDX),"^",2),") "
     138           . W CLIDX,!
     139           ; D PARY^C0CXPATH(CLBASE)
     140           Q
     141           ;
     142CPUSH(CATRTN,CBASE,CTBL,CDFN,CATTR)     ; ADD PATIENTS TO CATEGORIES
     143           ; AND PASS BACK THE NAME OF THE CATEGORY TO WHICH THE PATIENT
     144           ; WAS ADDED IN CATRTN, WHICH IS PASSED BY REFERENCE
     145           ; CBASE IS WHERE TO PUT THE CATEGORIES PASSED BY NAME
     146           ; CTBL IS THE NAME OF THE TABLE USED TO CREATE THE ATTRIBUTES,
     147           ; PASSED BY NAME AND USED TO CREATE CATEGORY NAMES IE "@CTBL_X"
     148           ; WHERE X IS THE CATEGORY NUMBER. CTBL(0) IS THE NUMBER OF CATEGORIES
     149           ; CATBL(X)=CATTR STORES THE ATTRIBUTE IN THE CATEGORY
     150           ; CDFN IS THE PATIENT DFN, CATTR IS THE ATTRIBUTE STRING
     151           ; THE LIST OF PATIENTS IN A CATEGORY IS STORED INDEXED BY CATEGORY
     152           ; NUMBER IE CTBL_X(CDFN)=""
     153           ;
     154           ; N CCTBL,CENTRY,CNUM,CCOUNT,CPATLIST
     155           S CCTBL=$NA(@CBASE@(CTBL,"CATS"))
     156           ; W "CBASE: ",CCTBL,!
     157           ;
     158           I '$D(@CCTBL@(CATTR)) D  ; FIRST PATIENT IN THIS CATEGORY
     159           . D PUSH^C0CXPATH(CCTBL,CATTR) ; ADD THE CATEGORY TO THE ARRAY
     160           . S CNUM=@CCTBL@(0) ; ARRAY ENTRY NUMBER FOR THIS CATEGORY
     161           . S CENTRY=CTBL_"_"_CNUM_U_0 ; TABLE ENTRY DEFAULT
     162           . S @CCTBL@(CATTR)=CENTRY ; DEFAULT NON INCREMENTED TABLE ENTRY
     163           . ; NOTE THAT P1 IS THE CATEGORY NAME MADE UP OF THE TABLE NAME
     164           . ; AND CATGORY ARRAY NUMBER. P2 IS THE COUNT WHICH IS INITIALLY 0
     165           ;
     166           S CCOUNT=$P(@CCTBL@(CATTR),U,2) ; COUNT OF PATIENTS IN THIS CATEGORY
     167           S CCOUNT=CCOUNT+1 ; INCREMENT THE COUNT
     168           S $P(@CCTBL@(CATTR),U,2)=CCOUNT ; PUT IT BACK
     169           ;
     170           S CATRTN=$P(@CCTBL@(CATTR),U,1) ; THE CATEGORY NAME WHICH IS RETURNED
     171           ;
     172           S CPATLIST=$NA(@CBASE@(CTBL,"IENS",CATRTN)) ; BASE OF PAT LIST FOR THIS CAT
     173           ; W "IENS BASE: ",CPATLIST,!
     174           S @CPATLIST@(CDFN)="" ; ADD THIS PATIENT TO THE CAT PAT LIST
     175           ;
     176           Q
     177           ;
     178REUSE   ; GET SAVED VALUES FROM ^TMP("C0CSAV") AND PUT THEM IN A DATABASE
     179        ;
     180        D ASETUP
     181        D AINIT
     182        N SNOI,SNOJ,SNOK,SNOSNO,SNOSEC,SNOIEN,SNOOLD,SNOSRCH
     183        S SAVBASE=$NA(^TMP("C0CSAV","VARS"))
     184        S SNOI=""
     185        F  D  Q:$O(@SAVBASE@(SNOI))="" ;THE WHOLE LIST
     186        . S SNOI=$O(@SAVBASE@(SNOI))
     187        . S SNOJ=@SAVBASE@(SNOI)
     188        . S SNOK=$P($P(SNOJ,"^",1)," ALLERGY",1)
     189        . S SNOSRCH=$P(SNOJ,"^",1) ;SEARCH TERM USED TO OBTAIN SNOMED CODE
     190        . S SNOIEN=$P(SNOJ,"^",3) ; IEN OF ELEMENT IN LEXICON
     191        . S SNOSNO=$P(SNOJ,"^",4) ; SNOMED CODE
     192        . S SNOSEC=$P(SNOJ,"^",5) ; SECTION OF SNOMED FOR THIS CODE
     193        . S SNOOLD=$P(SNOJ,"^",7) ; OLD NUMBER FOR THIS CODE
     194        . W "SEARCH:",SNOSRCH," IEN:",SNOIEN," CODE:",SNOSNO," SEC:",SNOSEC," OLD:",SNOOLD,!
     195        . W SNOK,!
     196        . W SNOJ,!
     197        Q
     198        ;
  • ccr/branches/ohum/p/C0CSOAP.m

    r1332 r1333  
    11C0CSOAP  ; CCDCCR/GPL - SOAP WEB SERVICE utilities; 8/25/09
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CSUB1.m

    r1332 r1333  
    11C0CSUB1   ; CCDCCR/GPL - CCR SUBSCRIPTION utilities; 12/6/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CSYS.m

    r1332 r1333  
    11C0CSYS  ;WV/C0C/SMH - Routine to Get EHR System Information;6JUL2008
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ; Copyright 2008 WorldVistA.  Licensed under the terms of the GNU
    44        ; General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CUNIT.m

    r1332 r1333  
    11C0CUNIT ; CCDCCR/GPL - Unit Testing Library; 5/07/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008 George Lilly. Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CUTIL.m

    r1332 r1333  
    11C0CUTIL ;WV/C0C/SMH - Various Utilites for generating the CCR/CCD;06/15/08
    2         ;;0.1;C0C;;Jun 15, 2008;Build 38
     2        ;;0.1;C0C;;Jun 15, 2008;Build 1
    33        ;Copyright 2008-2009 Sam Habiel & George Lilly. 
    44        ;Licensed under the terms of the GNU
     
    136136        ;
    137137RXNFN() Q 1130590011.001 ; RxNorm Concepts file number
    138  ;
    139 CODE(ZVUID) ; EXTRINSIC WHICH RETURNS THE RXNORM CODE IF KNOWN OF
    140  ; THE VUID - RETURNS CODE^SYSTEM^VERSION TO USE IN THE CCR
    141  N ZRSLT S ZRSLT=ZVUID_"^"_"VUID"_"^" ; DEFAULT
    142  I $G(ZVUID)="" Q ""
    143  I '$D(^C0P("RXN")) Q ZRSLT ; ERX NOT INSTALLED
    144  N C0PIEN ; S C0PIEN=$$FIND1^DIC($$RXNFN,"","QX",ZVUID,"VUID")
    145  S C0PIEN=$O(^C0P("RXN","VUID",ZVUID,"")) ;GPL FIX FOR MULTIPLES
    146  N ZRXN S ZRXN=$$GET1^DIQ($$RXNFN,C0PIEN,.01)
    147  S ZRXN=$$NISTMAP(ZRXN) ; CHANGE THE CODE IF NEEDED
    148  I ZRXN'="" S ZRSLT=ZRXN_"^RXNORM^08AB_081201F"
    149  Q ZRSLT
    150  ;
    151 NISTMAP(ZRXN) ; EXTRINSIC WHICH MAPS SOME RXNORM NUMBERS TO
    152  ; CONFORM TO NIST REQUIREMENTS
    153  ;INPATIENT CERTIFICATION
    154  I ZRXN=309362 S ZRXN=213169
    155  I ZRXN=855318 S ZRXN=855320
    156  I ZRXN=197361 S ZRXN=212549
    157  ;OUTPATIENT CERTIFICATION
    158  I ZRXN=310534 S ZRXN=205875
    159  I ZRXN=617312 S ZRXN=617314
    160  I ZRXN=310429 S ZRXN=200801
    161  I ZRXN=628953 S ZRXN=628958
    162  I ZRXN=745679 S ZRXN=630208
    163  I ZRXN=311564 S ZRXN=979334
    164  I ZRXN=836343 S ZRXN=836370
    165  Q ZRXN
    166  ;
     138        ;
     139CODE(ZVUID)     ; EXTRINSIC WHICH RETURNS THE RXNORM CODE IF KNOWN OF
     140        ; THE VUID - RETURNS CODE^SYSTEM^VERSION TO USE IN THE CCR
     141        N ZRSLT S ZRSLT=ZVUID_"^"_"VUID"_"^" ; DEFAULT
     142        I $G(ZVUID)="" Q ""
     143        I '$D(^C0P("RXN")) Q ZRSLT ; ERX NOT INSTALLED
     144        N C0PIEN ; S C0PIEN=$$FIND1^DIC($$RXNFN,"","QX",ZVUID,"VUID")
     145        S C0PIEN=$O(^C0P("RXN","VUID",ZVUID,"")) ;GPL FIX FOR MULTIPLES
     146        N ZRXN S ZRXN=$$GET1^DIQ($$RXNFN,C0PIEN,.01)
     147        S ZRXN=$$NISTMAP(ZRXN) ; CHANGE THE CODE IF NEEDED
     148        I ZRXN'="" S ZRSLT=ZRXN_"^RXNORM^08AB_081201F"
     149        Q ZRSLT
     150        ;
     151NISTMAP(ZRXN)   ; EXTRINSIC WHICH MAPS SOME RXNORM NUMBERS TO
     152        ; CONFORM TO NIST REQUIREMENTS
     153        ;INPATIENT CERTIFICATION
     154        I ZRXN=309362 S ZRXN=213169
     155        I ZRXN=855318 S ZRXN=855320
     156        I ZRXN=197361 S ZRXN=212549
     157        ;OUTPATIENT CERTIFICATION
     158        I ZRXN=310534 S ZRXN=205875
     159        I ZRXN=617312 S ZRXN=617314
     160        I ZRXN=310429 S ZRXN=200801
     161        I ZRXN=628953 S ZRXN=628958
     162        I ZRXN=745679 S ZRXN=630208
     163        I ZRXN=311564 S ZRXN=979334
     164        I ZRXN=836343 S ZRXN=836370
     165        Q ZRXN
     166        ;
    167167RPMS()  ; Are we running on an RPMS system rather than Vista?
    168168        Q $G(DUZ("AG"))="I" ; If User Agency is Indian Health Service
  • ccr/branches/ohum/p/C0CVA200.m

    r1332 r1333  
    11C0CVA200        ;WV/C0C/SMH - Routine to get Provider Data;07/13/2008
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008 Sam Habiel.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CVIT2.m

    r1332 r1333  
    11C0CVIT2 ; CCDCCR/CJE/GPL - CCR/CCD PROCESSING FOR VITALS ; 07/16/08
    2         ;;1.0;C0C;;Feb 16, 2010;Build 38
     2        ;;1.0;C0C;;Feb 16, 2010;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota and others.
    44        ;Licensed under the terms of the GNU General Public License.
  • ccr/branches/ohum/p/C0CVITAL.m

    r1332 r1333  
    11C0CVITAL        ; CCDCCR/CJE/GPL - CCR/CCD PROCESSING FOR VITALS ; 07/16/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008,2009 George Lilly, University of Minnesota and others.
    44        ;Licensed under the terms of the GNU General Public License.
     
    7272        . . I DEBUG W $P(VITPTMP,U,4),!
    7373        . . S @VITVMAP@("VITALSIGNSDATAOBJECTID")="VITAL"_J ; UNIQUE OBJID
    74         . . ;B  ;gpl
    75         . . S @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORPROVIDER_"_$P($G(^GMR(120.5,$P(VITPTMP,U,1),0)),U,6)
    76         . . I @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORPROVIDER_" D  ;
    77         . . . S @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORSYSTEM_1"
     74               . . ;B  ;gpl
     75               . . S @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORPROVIDER_"_$P($G(^GMR(120.5,$P(VITPTMP,U,1),0)),U,6)
     76               . . I @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORPROVIDER_" D  ;
     77               . . . S @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORSYSTEM_1"
    7878        . . I $P(VITPTMP,U,2)="HT" D
    7979        . . . S @VITVMAP@("VITALSIGNSDATETIMETYPETEXT")="OBSERVED"
     
    203203        . . . S @VITVMAP@("VITALSIGNSTESTRESULTVALUE")=$P(VITPTMP,U,3)
    204204        . . . S @VITVMAP@("VITALSIGNSTESTRESULTUNIT")="UNKNOWN"
    205         . . I @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORPROVIDER_" D  ;
    206         . . . S @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORSYSTEM_1" ;
     205               . . I @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORPROVIDER_" D  ;
     206               . . . S @VITVMAP@("VITALSIGNSTESTSOURCEACTORID")="ACTORSYSTEM_1" ;
    207207        . . S VITARYTMP=$NA(@VITTARYTMP@(J))
    208208        . . K @VITARYTMP
  • ccr/branches/ohum/p/C0CVOBX1.m

    r1332 r1333  
    1 LA7VOBX1 ;DALOI/JMC - LAB OBX Segment message builder (CH subscript) cont'd; 04/21/09
    2  ;;5.2;AUTOMATED LAB INSTRUMENTS;**46,61,63**;Sep 27, 1994
    3  ; JMC - mods to check for IHS V LAB file
    4  ;
    5 CH ; Observation/Result segment for "CH" subscript results.
    6  ; Called by LA7VOBX
    7  ;
    8  N LA76304,LA7ALT,LA7DIV,LA7I,LA7X,LA7Y,X
    9  ;
    10  ; "CH" subscript requires a dataname
    11  I '$G(LRSB) Q
    12  ;
    13  ; get result node from LR global.
    14  S LA76304(0)=$G(^LR(LRDFN,LRSS,LRIDT,0))
    15  S LA7VAL=$G(^LR(LRDFN,LRSS,LRIDT,LRSB))
    16  ;
    17  ; Check if test is OK to send - (O)utput or (B)oth
    18  S LA7X=$P(LA7VAL,"^",12)
    19  I LA7X]"","BO"'[LA7X Q
    20  I LA7X="",'$$OKTOSND^LA7VHLU1(LRSS,LRSB,+$P($P(LA7VAL,"^",3),"!",5)) Q
     1LA7VOBX1        ;DALOI/JMC - LAB OBX Segment message builder (CH subscript) cont'd; 04/21/09
     2        ;;5.2;AUTOMATED LAB INSTRUMENTS;**46,61,63**;Sep 27, 1994;Build 1
     3        ; JMC - mods to check for IHS V LAB file
     4        ;
     5CH      ; Observation/Result segment for "CH" subscript results.
     6        ; Called by LA7VOBX
     7        ;
     8        N LA76304,LA7ALT,LA7DIV,LA7I,LA7X,LA7Y,X
     9        ;
     10        ; "CH" subscript requires a dataname
     11        I '$G(LRSB) Q
     12        ;
     13        ; get result node from LR global.
     14        S LA76304(0)=$G(^LR(LRDFN,LRSS,LRIDT,0))
     15        S LA7VAL=$G(^LR(LRDFN,LRSS,LRIDT,LRSB))
     16        ;
     17        ; Check if test is OK to send - (O)utput or (B)oth
     18        S LA7X=$P(LA7VAL,"^",12)
     19        I LA7X]"","BO"'[LA7X Q
     20        I LA7X="",'$$OKTOSND^LA7VHLU1(LRSS,LRSB,+$P($P(LA7VAL,"^",3),"!",5)) Q
    2121        ;
    2222        ; If no result NLT or LOINC try to determine from file #60
     
    2727        I $P(LA7X,"!",2)=""!($P(LA7X,"!",3)="") S $P(LA7VAL,"^",3)=$$DEFCODE^LA7VHLU5(LRSS,LRSB,LA7X,$P(LA76304(0),"^",5))
    2828        ; No result NLT code - log error
    29  I $P($P(LA7VAL,"^",3),"!",2)="" D
    30  . N LA7X
    31  . S LA7X="["_LRSB_"]"_$$GET1^DID(63.04,LRSB,"","LABEL")
    32  . D CREATE^LA7LOG(36)
    33  ;
    34  ; something missing - No NLT code, etc.
    35  I LA7VAL="" Q
    36  ;
    37  ; Check for missing units/reference ranges
    38  S LA7X=$P(LA7VAL,"^",5)
    39  ;
    40  ; Results missing units, lookup in file #60
    41  I $P(LA7X,"!",7)="" S $P(LA7X,"!",7)=$P($$REFUNIT^LA7VHLU1(LRSB,$P(LA76304(0),"^",5)),"^",3)
    42  ;
    43  ; If results missing reference ranges, use values from file #60.
    44  I $P(LA7X,"!",2)="",$P(LA7X,"!",3)="",$P(LA7X,"!",11)="",$P(LA7X,"!",12)="" D
    45  . S LA7Y=$$REFUNIT^LA7VHLU1(LRSB,$P(LA76304(0),"^",5))
    46  . S $P(LA7X,"!",2)=$P(LA7Y,"^")
    47  . S $P(LA7X,"!",3)=$P(LA7Y,"^",2)
    48  . S $P(LA7X,"!",11)=$P(LA7Y,"^",6)
    49  . S $P(LA7X,"!",12)=$P(LA7Y,"^",7)
    50  ; Use therapeutic low/high if low/high missing.
    51  I $P(LA7X,"!",2)="",$P(LA7X,"!",3)="" D
    52  . S $P(LA7X,"!",2)=$P(LA7X,"!",11)
    53  . S $P(LA7X,"!",3)=$P(LA7X,"!",12)
    54  ;
    55  ; Evaluate low/high reference ranges in case M code in these fields.
    56  S:$G(SEX)="" SEX="M" S:$G(AGE)="" AGE=99
    57  F LA7I=2,3 I $E($P(LA7X,"!",LA7I),1,3)="$S(" D
    58  . S @("X="_$P(LA7X,"!",LA7I))
    59  . S $P(LA7X,"!",LA7I)=X
    60  ;
    61  ; Put units/reference ranges back in variable LA7VAL
    62  S $P(LA7VAL,"^",5)=LA7X
    63  ;
    64  ; Initialize OBX segment
    65  S LA7OBX(0)="OBX"
    66  S LA7OBX(1)=$$OBX1^LA7VOBX(.LA7OBXSN)
    67  ;
    68  ; Value type
    69  S LA7OBX(2)=$$OBX2^LA7VOBX(63.04,LRSB)
    70  ;
    71  ; Observation identifer
    72  ; build alternate code based on dataname from file #63 in case it's needed
    73  S LA7X=$P(LA7VAL,"^",3)
    74  S LA7ALT="CH"_LRSB_"^"_$$GET1^DID(63.04,LRSB,"","LABEL")_"^"_"99VA63"
    75  S LA7OBX(3)=$$OBX3^LA7VOBX($P(LA7X,"!",2),$P(LA7X,"!",3),LA7ALT,LA7FS,LA7ECH)
    76  ;
    77  ; Test value
    78  S LA7OBX(5)=$$OBX5^LA7VOBX($P(LA7VAL,"^"),LA7OBX(2),LA7FS,LA7ECH)
    79  ;
    80  ; Units - remove leading and trailing spaces
    81  S LA7X=$P(LA7VAL,"^",5),LA7X=$$TRIM^XLFSTR(LA7X,"LR"," ")
    82  S LA7OBX(6)=$$OBX6^LA7VOBX($P(LA7X,"!",7),"",LA7FS,LA7ECH)
    83  ;
    84  ; Reference range
    85  S LA7OBX(7)=$$OBX7^LA7VOBX($P(LA7X,"!",2),$P(LA7X,"!",3),LA7FS,LA7ECH)
    86  ;
    87  ; Abnormal flags
    88  S LA7OBX(8)=$$OBX8^LA7VOBX($P(LA7VAL,U,2))
    89  ;
    90  ; "P"artial or "F"inal results
    91  S LA7OBX(11)=$$OBX11^LA7VOBX($S("canccommentpending"[$P(LA7VAL,"^"):$P(LA7VAL,"^"),1:"F"))
    92  ;
    93  ; Observation date/time - collection date/time per HL7 standard
    94  I $P(LA76304(0),"^") S LA7OBX(14)=$$OBX14^LA7VOBX($P(LA76304(0),"^"))
    95  ;
    96  S LA7DIV=$P(LA7VAL,"^",9)
    97  I LA7DIV="",$$DIV4^XUSER(.LA7DIV,$P(LA7VAL,"^",4)) S LA7DIV=$O(LA7DIV(0))
    98  ;
    99  ; Facility that performed the testing
    100  S LA7OBX(15)=$$OBX15^LA7VOBX(LA7DIV,LA7FS,LA7ECH)
    101  ;
    102  ; Person that verified the test
    103  S LA7OBX(16)=$$OBX16^LA7VOBX($P(LA7VAL,"^",4),LA7DIV,LA7FS,LA7ECH)
    104  ;
    105  ; Observation method
    106  S LA7X=$P($P(LA7VAL,"^",3),"!",4)
    107  I LA7X S LA7OBX(17)=$$OBX17^LA7VOBX(LA7X,LA7FS,LA7ECH)
    108  ;
    109  ; Equipment entity identifier
    110  I $L($P(LA7VAL,"^",11)) S LA7OBX(18)=$$OBX18^LA7VOBX($P(LA7VAL,"^",11),LA7FS,LA7ECH)
    111  ;
    112  D BUILDSEG^LA7VHLU(.LA7OBX,.LA7ARRAY,LA7FS)
    113  ;
    114  Q
     29        I $P($P(LA7VAL,"^",3),"!",2)="" D
     30        . N LA7X
     31        . S LA7X="["_LRSB_"]"_$$GET1^DID(63.04,LRSB,"","LABEL")
     32        . D CREATE^LA7LOG(36)
     33        ;
     34        ; something missing - No NLT code, etc.
     35        I LA7VAL="" Q
     36        ;
     37        ; Check for missing units/reference ranges
     38        S LA7X=$P(LA7VAL,"^",5)
     39        ;
     40        ; Results missing units, lookup in file #60
     41        I $P(LA7X,"!",7)="" S $P(LA7X,"!",7)=$P($$REFUNIT^LA7VHLU1(LRSB,$P(LA76304(0),"^",5)),"^",3)
     42        ;
     43        ; If results missing reference ranges, use values from file #60.
     44        I $P(LA7X,"!",2)="",$P(LA7X,"!",3)="",$P(LA7X,"!",11)="",$P(LA7X,"!",12)="" D
     45        . S LA7Y=$$REFUNIT^LA7VHLU1(LRSB,$P(LA76304(0),"^",5))
     46        . S $P(LA7X,"!",2)=$P(LA7Y,"^")
     47        . S $P(LA7X,"!",3)=$P(LA7Y,"^",2)
     48        . S $P(LA7X,"!",11)=$P(LA7Y,"^",6)
     49        . S $P(LA7X,"!",12)=$P(LA7Y,"^",7)
     50        ; Use therapeutic low/high if low/high missing.
     51        I $P(LA7X,"!",2)="",$P(LA7X,"!",3)="" D
     52        . S $P(LA7X,"!",2)=$P(LA7X,"!",11)
     53        . S $P(LA7X,"!",3)=$P(LA7X,"!",12)
     54        ;
     55        ; Evaluate low/high reference ranges in case M code in these fields.
     56        S:$G(SEX)="" SEX="M" S:$G(AGE)="" AGE=99
     57        F LA7I=2,3 I $E($P(LA7X,"!",LA7I),1,3)="$S(" D
     58        . S @("X="_$P(LA7X,"!",LA7I))
     59        . S $P(LA7X,"!",LA7I)=X
     60        ;
     61        ; Put units/reference ranges back in variable LA7VAL
     62        S $P(LA7VAL,"^",5)=LA7X
     63        ;
     64        ; Initialize OBX segment
     65        S LA7OBX(0)="OBX"
     66        S LA7OBX(1)=$$OBX1^LA7VOBX(.LA7OBXSN)
     67        ;
     68        ; Value type
     69        S LA7OBX(2)=$$OBX2^LA7VOBX(63.04,LRSB)
     70        ;
     71        ; Observation identifer
     72        ; build alternate code based on dataname from file #63 in case it's needed
     73        S LA7X=$P(LA7VAL,"^",3)
     74        S LA7ALT="CH"_LRSB_"^"_$$GET1^DID(63.04,LRSB,"","LABEL")_"^"_"99VA63"
     75        S LA7OBX(3)=$$OBX3^LA7VOBX($P(LA7X,"!",2),$P(LA7X,"!",3),LA7ALT,LA7FS,LA7ECH)
     76        ;
     77        ; Test value
     78        S LA7OBX(5)=$$OBX5^LA7VOBX($P(LA7VAL,"^"),LA7OBX(2),LA7FS,LA7ECH)
     79        ;
     80        ; Units - remove leading and trailing spaces
     81        S LA7X=$P(LA7VAL,"^",5),LA7X=$$TRIM^XLFSTR(LA7X,"LR"," ")
     82        S LA7OBX(6)=$$OBX6^LA7VOBX($P(LA7X,"!",7),"",LA7FS,LA7ECH)
     83        ;
     84        ; Reference range
     85        S LA7OBX(7)=$$OBX7^LA7VOBX($P(LA7X,"!",2),$P(LA7X,"!",3),LA7FS,LA7ECH)
     86        ;
     87        ; Abnormal flags
     88        S LA7OBX(8)=$$OBX8^LA7VOBX($P(LA7VAL,U,2))
     89        ;
     90        ; "P"artial or "F"inal results
     91        S LA7OBX(11)=$$OBX11^LA7VOBX($S("canccommentpending"[$P(LA7VAL,"^"):$P(LA7VAL,"^"),1:"F"))
     92        ;
     93        ; Observation date/time - collection date/time per HL7 standard
     94        I $P(LA76304(0),"^") S LA7OBX(14)=$$OBX14^LA7VOBX($P(LA76304(0),"^"))
     95        ;
     96        S LA7DIV=$P(LA7VAL,"^",9)
     97        I LA7DIV="",$$DIV4^XUSER(.LA7DIV,$P(LA7VAL,"^",4)) S LA7DIV=$O(LA7DIV(0))
     98        ;
     99        ; Facility that performed the testing
     100        S LA7OBX(15)=$$OBX15^LA7VOBX(LA7DIV,LA7FS,LA7ECH)
     101        ;
     102        ; Person that verified the test
     103        S LA7OBX(16)=$$OBX16^LA7VOBX($P(LA7VAL,"^",4),LA7DIV,LA7FS,LA7ECH)
     104        ;
     105        ; Observation method
     106        S LA7X=$P($P(LA7VAL,"^",3),"!",4)
     107        I LA7X S LA7OBX(17)=$$OBX17^LA7VOBX(LA7X,LA7FS,LA7ECH)
     108        ;
     109        ; Equipment entity identifier
     110        I $L($P(LA7VAL,"^",11)) S LA7OBX(18)=$$OBX18^LA7VOBX($P(LA7VAL,"^",11),LA7FS,LA7ECH)
     111        ;
     112        D BUILDSEG^LA7VHLU(.LA7OBX,.LA7ARRAY,LA7FS)
     113        ;
     114        Q
  • ccr/branches/ohum/p/C0CVORU.m

    r1332 r1333  
    1 C0C7VORU ;WV/JMC - Builder of HL7 Lab Results OBR/OBX/NTE based on RPMS V LAB file ;Jun 16, 2009
    2  ;;5.2;AUTOMATED LAB INSTRUMENTS;;Sep 27, 1994
    3  ;
    4 EN(LA) ; called from C0CVLAB
    5  ; variables
    6  ; LA("HUID") - Host Unique ID from the local ACCESSION file (#68)
    7  ; LA("SITE") - Ordering site IEN in the INSTITUTION file (#4)
    8  ; LA("RUID") - Remote sites Unique ID from ACCESSION file (#68)
    9  ; LA("ORD") - Free text ordered test name from WKLD CODE file (#64)
    10  ; LA("NLT") - National Laboratory test code from WKLD CODE file (#64)
    11  ; LA("LRIDT") - Inverse date/time the lab arrival time (accession date/time)
    12  ; LA("SUB") - test subscript defined in LABORATORY TEST file (#60)
    13  ; LA("LRDFN") - IEN in LAB DATA file (#63)
    14  ; LA("ORD"), LA("NLT"), and LA("SUB") are sent for specific lab results.
    15  ; LA("AUTO-INST") - Auto-Instrument
    16  ;
    17  N LA763,LA7NLT,LA7NVAF,LA7X,PRIMARY
    18  ;
    19  S PRIMARY=$$PRIM^VASITE(DT),LA("AUTO-INST")=""
    20  I $G(PRIMARY)'="" D
    21  . S PRIMARY=$$SITE^VASITE(DT,PRIMARY)
    22  . S PRIMARY=$P(PRIMARY,U,3)
    23  . S LA("AUTO-INST")="LA7V HOST "_PRIMARY
    24  ;
    25  I '$O(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0)) D  Q
    26  . ; need to add error logging when no entry in 63.
    27  ;
    28  ; Get zeroth node of entry in #63.
    29  S LA763(0)=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0))
    30  S LA7NLT=$G(LA("NLT"))
    31  ;
    32  S LA7NVAF=$$NVAF^LA7VHLU2(+LA("SITE"))
    33  S LA7NTESN=0
    34  D ORC
    35  ;
    36  I $G(LA("SUB"))="CH" D CH
    37  ;I $G(LA("SUB"))="MI" D MI^LA7VORU1
    38  ;I "SPCYEM"[$G(LA("SUB")) D AP^LA7VORU2
    39  Q
    40  ;
    41  ;
    42 CH ; Build segments for "CH" subscript
    43  ;
    44  D OBR
    45  D NTE
    46  S LA7OBXSN=0
    47  D OBX
    48  ;
    49  Q
    50  ;
    51  ;
    52 ORC ; Build ORC segment
    53  ;
    54  N LA763,LA7696,LA7DATA,LA7SM,LA7X,LA7Y,ORC
    55  ;
    56  S LA763(0)=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0))
    57  ;
    58  S ORC(0)="ORC"
    59  ;
    60  ; Order control
    61  S ORC(1)=$$ORC1^LA7VORC("RE")
    62  ;
    63  ; Remote UID
    64  S ORC(2)=$$ORC2^LA7VORC(LA("RUID"),LA7FS,LA7ECH)
    65  ;
    66  ; Host UID
    67  S ORC(3)=$$ORC3^LA7VORC(LA("HUID"),LA7FS,LA7ECH)
    68  ;
    69  ; Return shipping manifest if found
    70  S LA7SM="",LA7696=0
    71  I LA("SITE")'="",LA("RUID")'="" S LA7696=$O(^LRO(69.6,"RST",LA("SITE"),LA("RUID"),0))
    72  I LA7696 S LA7SM=$P($G(^LRO(69.6,LA7696,0)),U,14)
    73  I LA7SM'="" S ORC(4)=$$ORC4^LA7VORC(LA7SM,LA7FS,LA7ECH)
    74  ;
    75  ; Order status
    76  ; DoD/CHCS requires ORC-5 valued otherwise will not process message
    77  I LA7NVAF=1 S ORC(5)=$$ORC5^LA7VORC("CM",LA7FS,LA7ECH)
    78  ;
    79  ; Ordering provider
    80  S (LA7X,LA7Y)=""
    81  ; "CH" subscript stores requesting provider and requesting div/location.
    82  I LA("SUB")="CH" D
    83  . N LA7J
    84  . S LA7J=$P(LA763(0),"^",13)
    85  . I $P(LA7J,";",2)="SC(" S LA7Y=$$GET1^DIQ(44,$P(LA7J,";")_",",3,"I")
    86  . I $P(LA7J,";",2)="DIC(4," S LA7Y=$P(LA7J,";")
    87  . S LA7X=$P(LA763(0),"^",10)
    88  ;
    89  ; Other subscripts only store requesting provider
    90  I "CYEMMISP"[LA("SUB") S LA7X=$P(LA763(0),"^",7)
    91  ; Get default institution from MailMan Site Parameters file
    92  I LA7Y="" S LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
    93  S ORC(12)=$$ORC12^LA7VORC(LA7X,LA7Y,LA7FS,LA7ECH)
    94  ;
    95  ; Entering organization
    96  S ORC(17)=$$ORC17^LA7VORC(LA7Y,LA7FS,LA7ECH)
    97  ;
    98  D BUILDSEG^LA7VHLU(.ORC,.LA7DATA,LA7FS)
    99  D FILESEG^LA7VHLU(GBL,.LA7DATA)
    100  ;
    101  ; Check for flag to only build message but do not file
    102  I '$G(LA7NOMSG) D FILE6249^LA7VHLU(LA76249P,.LA7DATA)
    103  ;
    104  Q
    105  ;
    106  ;
    107 OBR ;Observation Request segment for Lab Order
    108  ;
    109  N LA761,LA762,LA7DATA,LA7PLOBR,LA7X,LA7Y,OBR
    110  ;
    111  ; Retrieve placer's OBR information stored in #69.6
    112  D RETOBR^LA7VHLU(LA("SITE"),LA("RUID"),LA("NLT"),.LA7PLOBR)
    113  ;
    114  ; Initialize OBR segment
    115  S OBR(0)="OBR"
    116  S OBR(1)=$$OBR1^LA7VOBR(.LA7OBRSN)
    117  ;
    118  ; Remote UID
    119  S OBR(2)=$$OBR2^LA7VOBR(LA("RUID"),LA7FS,LA7ECH)
    120  ;
    121  ; Host UID
    122  S OBR(3)=$$OBR3^LA7VOBR(LA("HUID"),LA7FS,LA7ECH)
    123  ;
    124  ; Universal service ID, build from info stored in #69.6
    125  S LA7X=""
    126  I $G(LA7PLOBR("OBR-4"))'="" S OBR(4)=$$CNVFLD^LA7VHLU3(LA7PLOBR("OBR-4"),LA7PLOBR("ECH"),LA7ECH)
    127  E  S OBR(4)=$$OBR4^LA7VOBR(LA7NLT,"",LA7X,LA7FS,LA7ECH)
    128  ;
    129  ; Collection D/T
    130  S OBR(7)=$$OBR7^LA7VOBR($P(LA763(0),U))
    131  ;
    132  ; Specimen action code
    133  ; If no OBR from PENDING ORDER file (#69.6) then assume added test.
    134  I $G(LA7INTYP)=10,$G(LA7PLOBR("OBR-4"))="" S OBR(11)=$$OBR11^LA7VOBR("A")
    135  ;
    136  ; Infection Warning
    137  S OBR(12)=$$OBR12^LA7VOBR(LRDFN,LA7FS,LA7ECH)
    138  ;
    139  ; Lab Arrival Time
    140  ; "CH" subscript does not store lab arrival time, use collection time.
    141  ; Other subscripts do store lab arrival time (date/time received).
    142  I "CYEMMISP"[LA("SUB") S OBR(14)=$$OBR14^LA7VOBR($P(LA763(0),"^",10))
    143  I LA("SUB")="CH" S OBR(14)=$$OBR14^LA7VOBR($P(LA763(0),"^"))
    144  ;
    145  ; Specimen source
    146  S (LA761,LA762)=""
    147  I "CHMI"[LA("SUB") D
    148  . S LA761=$P(LA763(0),U,5)
    149  . I LA761="" D CREATE^LA7LOG(27)
    150  . I LA("SUB")="MI" S LA762=$P(LA763(0),U,11)
    151  S OBR(15)=$$OBR15^LA7VOBR(LA761,LA762,"",LA7FS,LA7ECH)
    152  ;
    153  ; Ordering provider
    154  S (LA7X,LA7Y)=""
    155  ; "CH" subscript stores requesting provider and requesting div/location.
    156  I LA("SUB")="CH" D
    157  . N LA7J
    158  . S LA7J=$P(LA763(0),"^",13)
    159  . I $P(LA7J,";",2)="SC(" S LA7Y=$$GET1^DIQ(44,$P(LA7J,";")_",",3,"I")
    160  . I $P(LA7J,";",2)="DIC(4," S LA7Y=$P(LA7J,";")
    161  . S LA7X=$P(LA763(0),"^",10)
    162  ;
    163  ; Other subscripts only store requesting provider
    164  I "CYEMMISP"[LA("SUB") S LA7X=$P(LA763(0),"^",7)
    165  ; Get default institution from MailMan Site Parameters file
    166  I LA7Y="" S LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
    167  S OBR(16)=$$ORC12^LA7VORC(LA7X,LA7Y,LA7FS,LA7ECH)
    168  ;
    169  ; Placer Field #1 (remote auto-inst)
    170  ; Build from info stored in #69.6
    171  I $G(LA7PLOBR("OBR-18"))'="" D
    172  . S OBR(18)=$$CHKDATA^LA7VHLU3(LA7PLOBR("OBR-18"),LA7FS_LA7ECH)
    173  ; Else build "auto instrument" if sending to VA facility
    174  I $G(LA7PLOBR("OBR-18"))="",'LA7NVAF D
    175  . N LA7X
    176  . S LA7X(1)=LA("AUTO-INST")
    177  . S OBR(18)=$$OBR18^LA7VOBR(.LA7X,LA7FS,LA7ECH)
    178  ;
    179  ; Placer Field #2
    180  I $G(LA7PLOBR("OBR-19"))'="" D
    181  . S OBR(19)=$$CHKDATA^LA7VHLU3(LA7PLOBR("OBR-19"),LA7FS_LA7ECH)
    182  ; Else build collecting UID if sending to VA facility
    183  I $G(LA7PLOBR("OBR-19"))="",'LA7NVAF,LA("RUID")'="" D
    184  . K LA7X
    185  . S LA7X(7)=LA("RUID")
    186  . S OBR(19)=$$OBR19^LA7VOBR(.LA7X,LA7FS,LA7ECH)
    187  ;
    188  ; Filler Field #1
    189  ; Send file #63 ien info - used by HDR to track patient/specimen
    190  K LA7X
    191  S LA7X(1)=LA("LRDFN")
    192  S LA7X(2)=LA("SUB")
    193  S LA7X(3)=LA("LRIDT")
    194  S OBR(20)=$$OBR20^LA7VOBR(.LA7X,LA7FS,LA7ECH)
    195  ;
    196  ; Date Report Completed
    197  I $P(LA763(0),"^",3) S OBR(22)=$$OBR22^LA7VOBR($P(LA763(0),"^",3))
    198  ;
    199  ; Diagnostic service id
    200  S OBR(24)=$$OBR24^LA7VOBR(LA("SUB")_"^"_$G(LRSB))
    201  ;
    202  ; Parent Result and Parent
    203  I $D(LA7PARNT) D
    204  . S OBR(26)=$$OBR26^LA7VOBR(LA7PARNT(1),LA7PARNT(2),LA7PARNT(3),LA7FS,LA7ECH)
    205  . S OBR(29)=$$OBR29^LA7VOBR(LA("RUID"),LA("HUID"),LA7FS,LA7ECH)
    206  ;
    207  ; Principle result interpreter
    208  ; Get default institution from MailMan Site Parameters file
    209  I "CYEMMISP"[LA("SUB") D
    210  . I LA("SUB")="MI" S LA7X=$P(LA763(0),"^",4)
    211  . E  S LA7X=$P(LA763(0),"^",2)
    212  . S LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
    213  . S OBR(32)=$$OBR32^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
    214  ;
    215  ; Assistant result interpreter
    216  ; Get default institution from MailMan Site Parameters file
    217  I "EMSP"[LA("SUB") D
    218  . S LA7X=$P(LA763(0),"^",4),LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
    219  . S OBR(33)=$$OBR33^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
    220  ;
    221  ; Technician
    222  ; Get default institution from MailMan Site Parameters file
    223  I "CYEM"[LA("SUB") D
    224  . S LA7X=$P(LA763(0),"^",4),LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
    225  . S OBR(34)=$$OBR34^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
    226  ;
    227  ; Typist - VistA stores as free text
    228  ; Get default institution from MailMan Site Parameters file
    229  I "CYEMSP"[LA("SUB") D
    230  . S LA7X=$P(LA763(0),"^",9),LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
    231  . S OBR(35)=$$OBR35^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
    232  ;
    233  D BUILDSEG^LA7VHLU(.OBR,.LA7DATA,LA7FS)
    234  D FILESEG^LA7VHLU(GBL,.LA7DATA)
    235  ;
    236  ; Check for flag to only build message but do not file
    237  I '$G(LA7NOMSG) D FILE6249^LA7VHLU(LA76249,.LA7DATA)
    238  ;
    239  Q
    240  ;
    241  ;
    242 OBX ;Observation/Result segment for Lab Results
    243  ;
    244  N LA7953,LA7DATA,LA7VT,LA7VTIEN,LA7X
    245  ;
    246  S LA7VTIEN=0
    247  F  S LA7VTIEN=$O(^LAHM(62.49,LA(62.49),1,LA7VTIEN)) Q:'LA7VTIEN  D
    248  . S LA7VT=$P(^LAHM(62.49,LA(62.49),1,LA7VTIEN,0),"^",1,2)
    249  . ; Build OBX segment
    250  . K LA7DATA
    251  . D OBX^LA7VOBX(LA("LRDFN"),LA("SUB"),LA("LRIDT"),$P(LA7VT,"^",1,2),.LA7DATA,.LA7OBXSN,LA7FS,LA7ECH,$G(LA7NVAF))
    252  . ; If OBX failed to build then don't store
    253  . I '$D(LA7DATA) Q
    254  . ;
    255  . D FILESEG^LA7VHLU(GBL,.LA7DATA)
    256  . I '$G(LA7NOMSG) D FILE6249^LA7VHLU(LA76249,.LA7DATA)
    257  . ;
    258  . ; Send performing lab comment and interpretation from file #60
    259  . S LA7NTESN=0
    260  . I LA7NVAF=1 D PLC^LA7VORUA
    261  . D INTRP^LA7VORUA
    262  . ;
    263  . ; Mark result as sent - set to 1, if corrected results set to 2
    264  . I LA("SUB")="CH" D
    265  . . I $P(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),$P(LA7VT,"^")),"^",10)>1 Q
    266  . . S $P(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),$P(LA7VT,"^")),"^",10)=$S($P(LA7VT,"^",2)="C":2,1:1)
    267  ;
    268  Q
    269  ;
    270  ;
    271 NTE ; Build NTE segment
    272  ;
    273  D NTE^LA7VORUA
    274  Q
     1C0C7VORU        ;WV/JMC - Builder of HL7 Lab Results OBR/OBX/NTE based on RPMS V LAB file ;Jun 16, 2009
     2        ;;5.2;AUTOMATED LAB INSTRUMENTS;;Sep 27, 1994;Build 1
     3        ;
     4EN(LA)  ; called from C0CVLAB
     5        ; variables
     6        ; LA("HUID") - Host Unique ID from the local ACCESSION file (#68)
     7        ; LA("SITE") - Ordering site IEN in the INSTITUTION file (#4)
     8        ; LA("RUID") - Remote sites Unique ID from ACCESSION file (#68)
     9        ; LA("ORD") - Free text ordered test name from WKLD CODE file (#64)
     10        ; LA("NLT") - National Laboratory test code from WKLD CODE file (#64)
     11        ; LA("LRIDT") - Inverse date/time the lab arrival time (accession date/time)
     12        ; LA("SUB") - test subscript defined in LABORATORY TEST file (#60)
     13        ; LA("LRDFN") - IEN in LAB DATA file (#63)
     14        ; LA("ORD"), LA("NLT"), and LA("SUB") are sent for specific lab results.
     15        ; LA("AUTO-INST") - Auto-Instrument
     16        ;
     17        N LA763,LA7NLT,LA7NVAF,LA7X,PRIMARY
     18        ;
     19        S PRIMARY=$$PRIM^VASITE(DT),LA("AUTO-INST")=""
     20        I $G(PRIMARY)'="" D
     21        . S PRIMARY=$$SITE^VASITE(DT,PRIMARY)
     22        . S PRIMARY=$P(PRIMARY,U,3)
     23        . S LA("AUTO-INST")="LA7V HOST "_PRIMARY
     24        ;
     25        I '$O(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0)) D  Q
     26        . ; need to add error logging when no entry in 63.
     27        ;
     28        ; Get zeroth node of entry in #63.
     29        S LA763(0)=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0))
     30        S LA7NLT=$G(LA("NLT"))
     31        ;
     32        S LA7NVAF=$$NVAF^LA7VHLU2(+LA("SITE"))
     33        S LA7NTESN=0
     34        D ORC
     35        ;
     36        I $G(LA("SUB"))="CH" D CH
     37        ;I $G(LA("SUB"))="MI" D MI^LA7VORU1
     38        ;I "SPCYEM"[$G(LA("SUB")) D AP^LA7VORU2
     39        Q
     40        ;
     41        ;
     42CH      ; Build segments for "CH" subscript
     43        ;
     44        D OBR
     45        D NTE
     46        S LA7OBXSN=0
     47        D OBX
     48        ;
     49        Q
     50        ;
     51        ;
     52ORC     ; Build ORC segment
     53        ;
     54        N LA763,LA7696,LA7DATA,LA7SM,LA7X,LA7Y,ORC
     55        ;
     56        S LA763(0)=$G(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),0))
     57        ;
     58        S ORC(0)="ORC"
     59        ;
     60        ; Order control
     61        S ORC(1)=$$ORC1^LA7VORC("RE")
     62        ;
     63        ; Remote UID
     64        S ORC(2)=$$ORC2^LA7VORC(LA("RUID"),LA7FS,LA7ECH)
     65        ;
     66        ; Host UID
     67        S ORC(3)=$$ORC3^LA7VORC(LA("HUID"),LA7FS,LA7ECH)
     68        ;
     69        ; Return shipping manifest if found
     70        S LA7SM="",LA7696=0
     71        I LA("SITE")'="",LA("RUID")'="" S LA7696=$O(^LRO(69.6,"RST",LA("SITE"),LA("RUID"),0))
     72        I LA7696 S LA7SM=$P($G(^LRO(69.6,LA7696,0)),U,14)
     73        I LA7SM'="" S ORC(4)=$$ORC4^LA7VORC(LA7SM,LA7FS,LA7ECH)
     74        ;
     75        ; Order status
     76        ; DoD/CHCS requires ORC-5 valued otherwise will not process message
     77        I LA7NVAF=1 S ORC(5)=$$ORC5^LA7VORC("CM",LA7FS,LA7ECH)
     78        ;
     79        ; Ordering provider
     80        S (LA7X,LA7Y)=""
     81        ; "CH" subscript stores requesting provider and requesting div/location.
     82        I LA("SUB")="CH" D
     83        . N LA7J
     84        . S LA7J=$P(LA763(0),"^",13)
     85        . I $P(LA7J,";",2)="SC(" S LA7Y=$$GET1^DIQ(44,$P(LA7J,";")_",",3,"I")
     86        . I $P(LA7J,";",2)="DIC(4," S LA7Y=$P(LA7J,";")
     87        . S LA7X=$P(LA763(0),"^",10)
     88        ;
     89        ; Other subscripts only store requesting provider
     90        I "CYEMMISP"[LA("SUB") S LA7X=$P(LA763(0),"^",7)
     91        ; Get default institution from MailMan Site Parameters file
     92        I LA7Y="" S LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
     93        S ORC(12)=$$ORC12^LA7VORC(LA7X,LA7Y,LA7FS,LA7ECH)
     94        ;
     95        ; Entering organization
     96        S ORC(17)=$$ORC17^LA7VORC(LA7Y,LA7FS,LA7ECH)
     97        ;
     98        D BUILDSEG^LA7VHLU(.ORC,.LA7DATA,LA7FS)
     99        D FILESEG^LA7VHLU(GBL,.LA7DATA)
     100        ;
     101        ; Check for flag to only build message but do not file
     102        I '$G(LA7NOMSG) D FILE6249^LA7VHLU(LA76249P,.LA7DATA)
     103        ;
     104        Q
     105        ;
     106        ;
     107OBR     ;Observation Request segment for Lab Order
     108        ;
     109        N LA761,LA762,LA7DATA,LA7PLOBR,LA7X,LA7Y,OBR
     110        ;
     111        ; Retrieve placer's OBR information stored in #69.6
     112        D RETOBR^LA7VHLU(LA("SITE"),LA("RUID"),LA("NLT"),.LA7PLOBR)
     113        ;
     114        ; Initialize OBR segment
     115        S OBR(0)="OBR"
     116        S OBR(1)=$$OBR1^LA7VOBR(.LA7OBRSN)
     117        ;
     118        ; Remote UID
     119        S OBR(2)=$$OBR2^LA7VOBR(LA("RUID"),LA7FS,LA7ECH)
     120        ;
     121        ; Host UID
     122        S OBR(3)=$$OBR3^LA7VOBR(LA("HUID"),LA7FS,LA7ECH)
     123        ;
     124        ; Universal service ID, build from info stored in #69.6
     125        S LA7X=""
     126        I $G(LA7PLOBR("OBR-4"))'="" S OBR(4)=$$CNVFLD^LA7VHLU3(LA7PLOBR("OBR-4"),LA7PLOBR("ECH"),LA7ECH)
     127        E  S OBR(4)=$$OBR4^LA7VOBR(LA7NLT,"",LA7X,LA7FS,LA7ECH)
     128        ;
     129        ; Collection D/T
     130        S OBR(7)=$$OBR7^LA7VOBR($P(LA763(0),U))
     131        ;
     132        ; Specimen action code
     133        ; If no OBR from PENDING ORDER file (#69.6) then assume added test.
     134        I $G(LA7INTYP)=10,$G(LA7PLOBR("OBR-4"))="" S OBR(11)=$$OBR11^LA7VOBR("A")
     135        ;
     136        ; Infection Warning
     137        S OBR(12)=$$OBR12^LA7VOBR(LRDFN,LA7FS,LA7ECH)
     138        ;
     139        ; Lab Arrival Time
     140        ; "CH" subscript does not store lab arrival time, use collection time.
     141        ; Other subscripts do store lab arrival time (date/time received).
     142        I "CYEMMISP"[LA("SUB") S OBR(14)=$$OBR14^LA7VOBR($P(LA763(0),"^",10))
     143        I LA("SUB")="CH" S OBR(14)=$$OBR14^LA7VOBR($P(LA763(0),"^"))
     144        ;
     145        ; Specimen source
     146        S (LA761,LA762)=""
     147        I "CHMI"[LA("SUB") D
     148        . S LA761=$P(LA763(0),U,5)
     149        . I LA761="" D CREATE^LA7LOG(27)
     150        . I LA("SUB")="MI" S LA762=$P(LA763(0),U,11)
     151        S OBR(15)=$$OBR15^LA7VOBR(LA761,LA762,"",LA7FS,LA7ECH)
     152        ;
     153        ; Ordering provider
     154        S (LA7X,LA7Y)=""
     155        ; "CH" subscript stores requesting provider and requesting div/location.
     156        I LA("SUB")="CH" D
     157        . N LA7J
     158        . S LA7J=$P(LA763(0),"^",13)
     159        . I $P(LA7J,";",2)="SC(" S LA7Y=$$GET1^DIQ(44,$P(LA7J,";")_",",3,"I")
     160        . I $P(LA7J,";",2)="DIC(4," S LA7Y=$P(LA7J,";")
     161        . S LA7X=$P(LA763(0),"^",10)
     162        ;
     163        ; Other subscripts only store requesting provider
     164        I "CYEMMISP"[LA("SUB") S LA7X=$P(LA763(0),"^",7)
     165        ; Get default institution from MailMan Site Parameters file
     166        I LA7Y="" S LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
     167        S OBR(16)=$$ORC12^LA7VORC(LA7X,LA7Y,LA7FS,LA7ECH)
     168        ;
     169        ; Placer Field #1 (remote auto-inst)
     170        ; Build from info stored in #69.6
     171        I $G(LA7PLOBR("OBR-18"))'="" D
     172        . S OBR(18)=$$CHKDATA^LA7VHLU3(LA7PLOBR("OBR-18"),LA7FS_LA7ECH)
     173        ; Else build "auto instrument" if sending to VA facility
     174        I $G(LA7PLOBR("OBR-18"))="",'LA7NVAF D
     175        . N LA7X
     176        . S LA7X(1)=LA("AUTO-INST")
     177        . S OBR(18)=$$OBR18^LA7VOBR(.LA7X,LA7FS,LA7ECH)
     178        ;
     179        ; Placer Field #2
     180        I $G(LA7PLOBR("OBR-19"))'="" D
     181        . S OBR(19)=$$CHKDATA^LA7VHLU3(LA7PLOBR("OBR-19"),LA7FS_LA7ECH)
     182        ; Else build collecting UID if sending to VA facility
     183        I $G(LA7PLOBR("OBR-19"))="",'LA7NVAF,LA("RUID")'="" D
     184        . K LA7X
     185        . S LA7X(7)=LA("RUID")
     186        . S OBR(19)=$$OBR19^LA7VOBR(.LA7X,LA7FS,LA7ECH)
     187        ;
     188        ; Filler Field #1
     189        ; Send file #63 ien info - used by HDR to track patient/specimen
     190        K LA7X
     191        S LA7X(1)=LA("LRDFN")
     192        S LA7X(2)=LA("SUB")
     193        S LA7X(3)=LA("LRIDT")
     194        S OBR(20)=$$OBR20^LA7VOBR(.LA7X,LA7FS,LA7ECH)
     195        ;
     196        ; Date Report Completed
     197        I $P(LA763(0),"^",3) S OBR(22)=$$OBR22^LA7VOBR($P(LA763(0),"^",3))
     198        ;
     199        ; Diagnostic service id
     200        S OBR(24)=$$OBR24^LA7VOBR(LA("SUB")_"^"_$G(LRSB))
     201        ;
     202        ; Parent Result and Parent
     203        I $D(LA7PARNT) D
     204        . S OBR(26)=$$OBR26^LA7VOBR(LA7PARNT(1),LA7PARNT(2),LA7PARNT(3),LA7FS,LA7ECH)
     205        . S OBR(29)=$$OBR29^LA7VOBR(LA("RUID"),LA("HUID"),LA7FS,LA7ECH)
     206        ;
     207        ; Principle result interpreter
     208        ; Get default institution from MailMan Site Parameters file
     209        I "CYEMMISP"[LA("SUB") D
     210        . I LA("SUB")="MI" S LA7X=$P(LA763(0),"^",4)
     211        . E  S LA7X=$P(LA763(0),"^",2)
     212        . S LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
     213        . S OBR(32)=$$OBR32^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
     214        ;
     215        ; Assistant result interpreter
     216        ; Get default institution from MailMan Site Parameters file
     217        I "EMSP"[LA("SUB") D
     218        . S LA7X=$P(LA763(0),"^",4),LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
     219        . S OBR(33)=$$OBR33^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
     220        ;
     221        ; Technician
     222        ; Get default institution from MailMan Site Parameters file
     223        I "CYEM"[LA("SUB") D
     224        . S LA7X=$P(LA763(0),"^",4),LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
     225        . S OBR(34)=$$OBR34^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
     226        ;
     227        ; Typist - VistA stores as free text
     228        ; Get default institution from MailMan Site Parameters file
     229        I "CYEMSP"[LA("SUB") D
     230        . S LA7X=$P(LA763(0),"^",9),LA7Y=$$GET1^DIQ(4.3,"1,",217,"I")
     231        . S OBR(35)=$$OBR35^LA7VOBR(LA7X,LA7Y,LA7FS,LA7ECH)
     232        ;
     233        D BUILDSEG^LA7VHLU(.OBR,.LA7DATA,LA7FS)
     234        D FILESEG^LA7VHLU(GBL,.LA7DATA)
     235        ;
     236        ; Check for flag to only build message but do not file
     237        I '$G(LA7NOMSG) D FILE6249^LA7VHLU(LA76249,.LA7DATA)
     238        ;
     239        Q
     240        ;
     241        ;
     242OBX     ;Observation/Result segment for Lab Results
     243        ;
     244        N LA7953,LA7DATA,LA7VT,LA7VTIEN,LA7X
     245        ;
     246        S LA7VTIEN=0
     247        F  S LA7VTIEN=$O(^LAHM(62.49,LA(62.49),1,LA7VTIEN)) Q:'LA7VTIEN  D
     248        . S LA7VT=$P(^LAHM(62.49,LA(62.49),1,LA7VTIEN,0),"^",1,2)
     249        . ; Build OBX segment
     250        . K LA7DATA
     251        . D OBX^LA7VOBX(LA("LRDFN"),LA("SUB"),LA("LRIDT"),$P(LA7VT,"^",1,2),.LA7DATA,.LA7OBXSN,LA7FS,LA7ECH,$G(LA7NVAF))
     252        . ; If OBX failed to build then don't store
     253        . I '$D(LA7DATA) Q
     254        . ;
     255        . D FILESEG^LA7VHLU(GBL,.LA7DATA)
     256        . I '$G(LA7NOMSG) D FILE6249^LA7VHLU(LA76249,.LA7DATA)
     257        . ;
     258        . ; Send performing lab comment and interpretation from file #60
     259        . S LA7NTESN=0
     260        . I LA7NVAF=1 D PLC^LA7VORUA
     261        . D INTRP^LA7VORUA
     262        . ;
     263        . ; Mark result as sent - set to 1, if corrected results set to 2
     264        . I LA("SUB")="CH" D
     265        . . I $P(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),$P(LA7VT,"^")),"^",10)>1 Q
     266        . . S $P(^LR(LA("LRDFN"),LA("SUB"),LA("LRIDT"),$P(LA7VT,"^")),"^",10)=$S($P(LA7VT,"^",2)="C":2,1:1)
     267        ;
     268        Q
     269        ;
     270        ;
     271NTE     ; Build NTE segment
     272        ;
     273        D NTE^LA7VORUA
     274        Q
  • ccr/branches/ohum/p/C0CXEWD.m

    r1332 r1333  
    1 C0CXEWD   ; C0C/GPL - EWD based XPath utilities; 10/11/09
    2  ;;0.1;C0C;nopatch;noreleasedate
    3  ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
    4  ;General Public License See attached copy of the License.
    5  ;
    6  ;This program is free software; you can redistribute it and/or modify
    7  ;it under the terms of the GNU General Public License as published by
    8  ;the Free Software Foundation; either version 2 of the License, or
    9  ;(at your option) any later version.
    10  ;
    11  ;This program is distributed in the hope that it will be useful,
    12  ;but WITHOUT ANY WARRANTY; without even the implied warranty of
    13  ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    14  ;GNU General Public License for more details.
    15  ;
    16  ;You should have received a copy of the GNU General Public License along
    17  ;with this program; if not, write to the Free Software Foundation, Inc.,
    18  ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
    19  ;
    20  Q
    21  ;
    22 TEST ;
    23  D XPATH($$FIRST($$ID("CCR1")),"/","GIDX","GARY")
    24  Q
    25  ;
    26 TEST2 ;
    27  S REDUX="//soap:Envelope/soap:Body/GetPatientFullMedicationHistory5Response/GetPatientFullMedicationHistory5Result/patientDrugDetail"
    28  D XPATH($$FIRST($$ID("gpl")),"/","GIDX","GARY","",REDUX)
    29  Q
    30  ;
    31 XPATH(ZOID,ZPATH,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; RECURSIVE ROUTINE TO POPULATE
    32  ; THE XPATH INDEX ZXIDX, PASSED BY NAME
    33  ; THE XPATH ARRAY XPARY, PASSED BY NAME
    34  ; ZOID IS THE STARTING OID
    35  ; ZPATH IS THE STARTING XPATH, USUALLY "/"
    36  ; ZNUM IS THE MULTIPLE NUMBER [x], USUALLY NULL WHEN ON THE TOP NODE
    37  ; ZREDUX IS THE XPATH REDUCTION STRING, TAKEN OUT OF EACH XPATH IF PRESENT
    38  I '$D(ZREDUX) S ZREDUX=""
    39  N NEWPATH
    40  N NEWNUM S NEWNUM=""
    41  I $G(ZNUM)>0 S NEWNUM="["_ZNUM_"]"
    42  S NEWPATH=ZPATH_"/"_$$TAG(ZOID)_NEWNUM ; CREATE THE XPATH FOR THIS NODE
    43  I $G(ZREDUX)'="" D  ; REDUX PROVIDED?
    44  . N GT S GT=$P(NEWPATH,ZREDUX,2)
    45  . I GT'="" S NEWPATH=GT
    46  S @ZXIDX@(NEWPATH)=ZOID ; ADD THE XPATH FOR THIS NODE TO THE XPATH INDEX
    47  N GD D DATA("GD",ZOID) ; SEE IF THERE IS DATA FOR THIS NODE
    48  I $D(GD(2)) M @ZXPARY@(NEWPATH)=GD ; IF MULITPLE DATA MERGE TO THE ARRAY
    49  E  I $D(GD(1)) S @ZXPARY@(NEWPATH)=GD(1) ; IF SINGLE VALUE, ADD TO ARRAY
    50  I GD'="" S @ZXPARY@(NEWPATH)=GD ; IF YES, ADD IT TO THE XPATH ARRAY
    51  N ZFRST S ZFRST=$$FIRST(ZOID) ; SET FIRST CHILD
    52  I ZFRST'="" D  ; THERE IS A CHILD
    53  . N ZMULT S ZMULT=$$ISMULT(ZFRST) ; IS FIRST CHILD A MULTIPLE
    54  . D XPATH(ZFRST,NEWPATH,ZXIDX,ZXPARY,$S(ZMULT:1,1:""),ZREDUX) ; DO THE CHILD
    55  N GNXT S GNXT=$$NXTSIB(ZOID)
    56  I GNXT'="" D  ; MOVE ON TO THE NEXT SIBLING
    57  . D XPATH(GNXT,ZPATH,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; DO NEXT SIB
    58  Q
    59  ;
    60 PARSE(INXML,INDOC) ;CALL THE EWD PARSER ON INXML, PASSED BY NAME
    61  ; INDOC IS PASSED AS THE DOCUMENT NAME TO EWD
    62  ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY EWD
    63  N ZR
    64  M ^CacheTempEWD($j)=@INXML ;
    65  S ZR=$$parseDocument^%zewdHTMLParser(INDOC)
    66  Q ZR
    67  ;
    68 ISMULT(ZOID) ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
    69  N ZN
    70  S ZN=$$NXTSIB(ZOID)
    71  I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
    72  Q 0
    73  ;
    74 DETAIL(ZRTN,ZOID) ; RETURNS DETAIL FOR NODE ZOID IN ZRTN, PASSED BY NAME
    75  N DET
    76  D getElementDetails^%zewdXPath(ZOID,.DET)
    77  M @ZRTN=DET
    78  Q
    79  ;
    80 ID(ZNAME) ;RETURNS THE docOID OF THE DOCUMENT NAMED ZNAME
    81  Q $$getDocumentNode^%zewdDOM(ZNAME)
    82  ;
    83 NAME(ZOID) ;RETURNS THE NAME OF THE DOCUMENAT WITH docOID ZOID
    84  Q $$getDocumentName^%zewdDOM(ZOID)
    85  ;
    86 FIRST(ZOID) ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
    87  N GOID
    88  S GOID=ZOID
    89  S GOID=$$getFirstChild^%zewdDOM(GOID)
    90  I GOID="" Q ""
    91  I $$getNodeType^%zewdDOM(GOID)'=1 S GOID=$$NXTCHLD(GOID)
    92  Q GOID
    93  ;
    94 HASCHILD(ZOID) ; RETURNS TRUE IF ZOID HAS CHILD NODES
    95  Q $$hasChildNodes^%zewdDOM(ZOID)
    96  ;
    97 CHILDREN(ZRTN,ZOID) ;RETURNS CHILDREN OF ZOID IN ARRAY ZRTN, PASSED BY NAME
    98  N childArray
    99  d getChildrenInOrder^%zewdDOM(ZOID,.childArray)
    100  m @ZRTN=childArray
    101  q
    102  ;
    103 TAG(ZOID) ; RETURNS THE XML TAG FOR THE NODE
    104  Q $$getName^%zewdDOM(ZOID)
    105  ;
    106 NXTSIB(ZOID) ; RETURNS THE NEXT SIBLING
    107  Q $$getNextSibling^%zewdDOM(ZOID)
    108  ;
    109 NXTCHLD(ZOID) ; RETURNS THE NEXT CHILD IN PARENT ZPAR
    110  N GOID
    111  S GOID=$$getNextChild^%zewdDOM($$PARENT(ZOID),ZOID)
    112  I GOID="" Q ""
    113  I $$getNodeType^%zewdDOM(GOID)'=1 S GOID=$$NXTCHLD(GOID)
    114  Q GOID
    115  ;
    116 PARENT(ZOID) ; RETURNS PARENT OF ZOID
    117  Q $$getParentNode^%zewdDOM(ZOID)
    118  ;
    119 DATA(ZT,ZOID) ; RETURNS DATA FOR THE NODE
    120  N ZT2
    121  S ZT2=$$getElementText^%zewdDOM(ZOID,.ZT2)
    122  M @ZT=ZT2
    123  Q
    124  ;Q $$getTextValue^%zewdXPath(ZOID)
    125  ;Q $$getData^%zewdDOM(ZOID,.ZT)
    126  ;
     1C0CXEWD   ; C0C/GPL - EWD based XPath utilities; 10/11/09
     2        ;;0.1;C0C;nopatch;noreleasedate;Build 1
     3        ;Copyright 2009 George Lilly.  Licensed under the terms of the GNU
     4        ;General Public License See attached copy of the License.
     5        ;
     6        ;This program is free software; you can redistribute it and/or modify
     7        ;it under the terms of the GNU General Public License as published by
     8        ;the Free Software Foundation; either version 2 of the License, or
     9        ;(at your option) any later version.
     10        ;
     11        ;This program is distributed in the hope that it will be useful,
     12        ;but WITHOUT ANY WARRANTY; without even the implied warranty of
     13        ;MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14        ;GNU General Public License for more details.
     15        ;
     16        ;You should have received a copy of the GNU General Public License along
     17        ;with this program; if not, write to the Free Software Foundation, Inc.,
     18        ;51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
     19        ;
     20        Q
     21        ;
     22TEST    ;
     23        D XPATH($$FIRST($$ID("CCR1")),"/","GIDX","GARY")
     24        Q
     25        ;
     26TEST2   ;
     27        S REDUX="//soap:Envelope/soap:Body/GetPatientFullMedicationHistory5Response/GetPatientFullMedicationHistory5Result/patientDrugDetail"
     28        D XPATH($$FIRST($$ID("gpl")),"/","GIDX","GARY","",REDUX)
     29        Q
     30        ;
     31XPATH(ZOID,ZPATH,ZXIDX,ZXPARY,ZNUM,ZREDUX)      ; RECURSIVE ROUTINE TO POPULATE
     32        ; THE XPATH INDEX ZXIDX, PASSED BY NAME
     33        ; THE XPATH ARRAY XPARY, PASSED BY NAME
     34        ; ZOID IS THE STARTING OID
     35        ; ZPATH IS THE STARTING XPATH, USUALLY "/"
     36        ; ZNUM IS THE MULTIPLE NUMBER [x], USUALLY NULL WHEN ON THE TOP NODE
     37        ; ZREDUX IS THE XPATH REDUCTION STRING, TAKEN OUT OF EACH XPATH IF PRESENT
     38        I '$D(ZREDUX) S ZREDUX=""
     39        N NEWPATH
     40        N NEWNUM S NEWNUM=""
     41        I $G(ZNUM)>0 S NEWNUM="["_ZNUM_"]"
     42        S NEWPATH=ZPATH_"/"_$$TAG(ZOID)_NEWNUM ; CREATE THE XPATH FOR THIS NODE
     43        I $G(ZREDUX)'="" D  ; REDUX PROVIDED?
     44        . N GT S GT=$P(NEWPATH,ZREDUX,2)
     45        . I GT'="" S NEWPATH=GT
     46        S @ZXIDX@(NEWPATH)=ZOID ; ADD THE XPATH FOR THIS NODE TO THE XPATH INDEX
     47        N GD D DATA("GD",ZOID) ; SEE IF THERE IS DATA FOR THIS NODE
     48        I $D(GD(2)) M @ZXPARY@(NEWPATH)=GD ; IF MULITPLE DATA MERGE TO THE ARRAY
     49        E  I $D(GD(1)) S @ZXPARY@(NEWPATH)=GD(1) ; IF SINGLE VALUE, ADD TO ARRAY
     50        I GD'="" S @ZXPARY@(NEWPATH)=GD ; IF YES, ADD IT TO THE XPATH ARRAY
     51        N ZFRST S ZFRST=$$FIRST(ZOID) ; SET FIRST CHILD
     52        I ZFRST'="" D  ; THERE IS A CHILD
     53        . N ZMULT S ZMULT=$$ISMULT(ZFRST) ; IS FIRST CHILD A MULTIPLE
     54        . D XPATH(ZFRST,NEWPATH,ZXIDX,ZXPARY,$S(ZMULT:1,1:""),ZREDUX) ; DO THE CHILD
     55        N GNXT S GNXT=$$NXTSIB(ZOID)
     56        I GNXT'="" D  ; MOVE ON TO THE NEXT SIBLING
     57        . D XPATH(GNXT,ZPATH,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; DO NEXT SIB
     58        Q
     59        ;
     60PARSE(INXML,INDOC)      ;CALL THE EWD PARSER ON INXML, PASSED BY NAME
     61        ; INDOC IS PASSED AS THE DOCUMENT NAME TO EWD
     62        ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY EWD
     63        N ZR
     64        M ^CacheTempEWD($j)=@INXML ;
     65        S ZR=$$parseDocument^%zewdHTMLParser(INDOC)
     66        Q ZR
     67        ;
     68ISMULT(ZOID)    ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
     69        N ZN
     70        S ZN=$$NXTSIB(ZOID)
     71        I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
     72        Q 0
     73        ;
     74DETAIL(ZRTN,ZOID)       ; RETURNS DETAIL FOR NODE ZOID IN ZRTN, PASSED BY NAME
     75        N DET
     76        D getElementDetails^%zewdXPath(ZOID,.DET)
     77        M @ZRTN=DET
     78        Q
     79        ;
     80ID(ZNAME)       ;RETURNS THE docOID OF THE DOCUMENT NAMED ZNAME
     81        Q $$getDocumentNode^%zewdDOM(ZNAME)
     82        ;
     83NAME(ZOID)      ;RETURNS THE NAME OF THE DOCUMENAT WITH docOID ZOID
     84        Q $$getDocumentName^%zewdDOM(ZOID)
     85        ;
     86FIRST(ZOID)     ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
     87        N GOID
     88        S GOID=ZOID
     89        S GOID=$$getFirstChild^%zewdDOM(GOID)
     90        I GOID="" Q ""
     91        I $$getNodeType^%zewdDOM(GOID)'=1 S GOID=$$NXTCHLD(GOID)
     92        Q GOID
     93        ;
     94HASCHILD(ZOID)  ; RETURNS TRUE IF ZOID HAS CHILD NODES
     95        Q $$hasChildNodes^%zewdDOM(ZOID)
     96        ;
     97CHILDREN(ZRTN,ZOID)     ;RETURNS CHILDREN OF ZOID IN ARRAY ZRTN, PASSED BY NAME
     98        N childArray
     99        d getChildrenInOrder^%zewdDOM(ZOID,.childArray)
     100        m @ZRTN=childArray
     101        q
     102        ;
     103TAG(ZOID)       ; RETURNS THE XML TAG FOR THE NODE
     104        Q $$getName^%zewdDOM(ZOID)
     105        ;
     106NXTSIB(ZOID)    ; RETURNS THE NEXT SIBLING
     107        Q $$getNextSibling^%zewdDOM(ZOID)
     108        ;
     109NXTCHLD(ZOID)   ; RETURNS THE NEXT CHILD IN PARENT ZPAR
     110        N GOID
     111        S GOID=$$getNextChild^%zewdDOM($$PARENT(ZOID),ZOID)
     112        I GOID="" Q ""
     113        I $$getNodeType^%zewdDOM(GOID)'=1 S GOID=$$NXTCHLD(GOID)
     114        Q GOID
     115        ;
     116PARENT(ZOID)    ; RETURNS PARENT OF ZOID
     117        Q $$getParentNode^%zewdDOM(ZOID)
     118        ;
     119DATA(ZT,ZOID)   ; RETURNS DATA FOR THE NODE
     120        N ZT2
     121        S ZT2=$$getElementText^%zewdDOM(ZOID,.ZT2)
     122        M @ZT=ZT2
     123        Q
     124        ;Q $$getTextValue^%zewdXPath(ZOID)
     125        ;Q $$getData^%zewdDOM(ZOID,.ZT)
     126        ;
  • ccr/branches/ohum/p/C0CXPAT0.m

    r1332 r1333  
    11C0CXPAT0          ; CCDCCR/GPL - XPATH TEST CASES ; 6/1/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
  • ccr/branches/ohum/p/C0CXPATH.m

    r1332 r1333  
    11C0CXPATH          ; CCDCCR/GPL - XPATH XML manipulation utilities; 6/1/08
    2         ;;1.0;C0C;;May 19, 2009;Build 38
     2        ;;1.0;C0C;;May 19, 2009;Build 1
    33        ;Copyright 2008 George Lilly.  Licensed under the terms of the GNU
    44        ;General Public License See attached copy of the License.
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