source: ccr/trunk/p/C0CDOM.m@ 1566

Last change on this file since 1566 was 1544, checked in by Sam Habiel, 12 years ago

Merged Routines in OHUM branch back in main tree

  • Property svn:mergeinfo set to (toggle deleted branches)
    /ccr/branches/ohum/o-old/p/C0CDOM.m1290
    /ccr/branches/ohum/p/C0CDOM.m1291-1543
    /ccr/branches/ohum/p/p/C0CDOM.m1287-1289
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[1336]1C0CDOM ; GPL - DOM PROCESSING ROUTINES ;6/6/11 17:05
[1544]2 ;;1.2;C0C;;May 11, 2012;Build 47
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 ;
[1336]22DOMO(ZOID,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; RECURSIVE ROUTINE TO POPULATE
[1544]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=$$ISMULT(GNXT) ; IS THE SIBLING A MULTIPLE?
60 . I (ZNUM="")&(ZMULT) D ; SIBLING IS FIRST OF MULTIPLES
61 . . N ZNUM S ZNUM=1 ;
62 . . D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,ZNUM,ZREDUX) ; DO NEXT SIB
63 . E D DOMO(GNXT,ZPATH,ZNARY,ZXIDX,ZXPARY,$S(ZNUM>0:ZNUM+1,1:""),ZREDUX) ; SIB
64 Q
65 ;
66ADDNARY(ZXP,ZVALUE) ; ADD AN NHIN ARRAY VALUE TO ZNARY
67 ;
68 ; IF ZATT=1 THE ARRAY IS ADDED AS ATTRIBUTES
69 ;
70 N ZZI,ZZJ,ZZN
71 S ZZI=$P(ZXP,"/",1) ; FIRST PIECE OF XPATH ARRAY
72 I ZZI="" Q ; DON'T ADD THIS ONE .. PROBABLY THE //results NODE
73 S ZZJ=$P(ZXP,ZZI_"/",2) ; REST OF XPATH ARRAY
74 S ZZJ=$TR(ZZJ,"/",".") ; REPLACE / WITH .
75 I ZZI'["]" D ; A SINGLETON
76 . S ZZN=1
77 E D ; THERE IS AN [x] OCCURANCE
78 . S ZZN=$P($P(ZZI,"[",2),"]",1) ; PULL OUT THE OCCURANCE
79 . S ZZI=$P(ZZI,"[",1) ; TAKE OUT THE [X]
80 I ZZJ'="" D ; TIME TO ADD THE VALUE
81 . S @ZNARY@(ZZI,ZZN,ZZJ)=ZVALUE
82 Q
83 ;
[1336]84PARSE(INXML,INDOC) ;CALL THE MXML PARSER ON INXML, PASSED BY NAME
[1544]85 ; INDOC IS PASSED AS THE DOCUMENT NAME - DON'T KNOW WHERE TO STORE THIS NOW
86 ; EXTRINSIC WHICH RETURNS THE DOCID ASSIGNED BY MXML
87 ;Q $$EN^MXMLDOM(INXML)
88 Q $$EN^MXMLDOM(INXML,"W")
89 ;
[1336]90ISMULT(ZOID) ; RETURN TRUE IF ZOID IS ONE OF A MULTIPLE
[1544]91 N ZN
92 ;I $$TAG(ZOID)["entry" B
93 S ZN=$$NXTSIB(ZOID)
94 I ZN'="" Q $$TAG(ZOID)=$$TAG(ZN) ; IF TAG IS THE SAME AS NEXT SIB TAG
95 Q 0
96 ;
[1336]97FIRST(ZOID) ;RETURNS THE OID OF THE FIRST CHILD OF ZOID
[1544]98 Q $$CHILD^MXMLDOM(C0CDOCID,ZOID)
99 ;
[1336]100PARENT(ZOID) ;RETURNS THE OID OF THE PARENT OF ZOID
[1544]101 Q $$PARENT^MXMLDOM(C0CDOCID,ZOID)
102 ;
[1336]103ATT(RTN,NODE) ;GET ATTRIBUTES FOR ZOID
[1544]104 S HANDLE=C0CDOCID
105 K @RTN
106 D GETTXT^MXMLDOM("A")
107 Q
108 ;
[1336]109TAG(ZOID) ; RETURNS THE XML TAG FOR THE NODE
[1544]110 ;I ZOID=149 B ;GPLTEST
111 N X,Y
112 S Y=""
113 S X=$G(C0CCBK("TAG")) ;IS THERE A CALLBACK FOR THIS ROUTINE
114 I X'="" X X ; EXECUTE THE CALLBACK, SHOULD SET Y
115 I Y="" S Y=$$NAME^MXMLDOM(C0CDOCID,ZOID)
116 Q Y
117 ;
[1336]118NXTSIB(ZOID) ; RETURNS THE NEXT SIBLING
[1544]119 Q $$SIBLING^MXMLDOM(C0CDOCID,ZOID)
120 ;
[1336]121DATA(ZT,ZOID) ; RETURNS DATA FOR THE NODE
[1544]122 ;N ZT,ZN S ZT=""
123 ;S C0CDOM=$NA(^TMP("MXMLDOM",$J,C0CDOCID))
124 ;Q $G(@C0CDOM@(ZOID,"T",1))
125 S ZN=$$TEXT^MXMLDOM(C0CDOCID,ZOID,ZT)
126 Q
127 ;
[1336]128OUTXML(ZRTN,INID,NO1ST) ; USES C0CMXMLB (MXMLBLD) TO OUTPUT XML FROM AN MXMLDOM
[1544]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 ;
[1336]139NDOUT(ZOID) ;CALLBACK ROUTINE - IT IS RECURSIVE
[1544]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 ;
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