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C0SXPATH.m@ 1591

Last change on this file since 1591 was 1591, checked in by Sam Habiel, 12 years ago
Updated license for routines
File size: 25.5 KB

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1	C0SXPATH ; CCDCCR/GPL - XPATH XML manipulation utilities; 6/1/08 ; 9/26/12 10:45am
2	;;1.0;VISTA SMART CONTAINER;;Sep 26, 2012;Build 5
3	;Copyright 2008-2012 George Lilly.
4	;
5	; This program is free software: you can redistribute it and/or modify
6	; it under the terms of the GNU Affero General Public License as
7	; published by the Free Software Foundation, either version 3 of the
8	; License, or (at your option) any later version.
9	;
10	; This program is distributed in the hope that it will be useful,
11	; but WITHOUT ANY WARRANTY; without even the implied warranty of
12	; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13	; GNU Affero General Public License for more details.
14	;
15	; You should have received a copy of the GNU Affero General Public License
16	; along with this program. If not, see <http://www.gnu.org/licenses/>.
17	;
18	W "This is an XML XPATH utility library",!
19	W !
20	Q
21	;
22	OUTPUT(OUTARY,OUTNAME,OUTDIR) ; WRITE AN ARRAY TO A FILE
23	;
24	N Y
25	S Y=$$GTF^%ZISH(OUTARY,$QL(OUTARY),OUTDIR,OUTNAME)
26	I Y Q 1_U_"WROTE FILE: "_OUTNAME_" TO "_OUTDIR
27	I 'Y Q 0_U_"ERROR WRITING FILE"_OUTNAME_" TO "_OUTDIR
28	Q
29	;
30	PUSH(STK,VAL) ; pushs VAL onto STK and updates STK(0)
31	; VAL IS A STRING AND STK IS PASSED BY NAME
32	;
33	I '$D(@STK@(0)) S @STK@(0)=0 ; IF THE ARRAY IS EMPTY, INITIALIZE
34	S @STK@(0)=@STK@(0)+1 ; INCREMENT ARRAY DEPTH
35	S @STK@(@STK@(0))=VAL ; PUT VAL A THE END OF THE ARRAY
36	Q
37	;
38	POP(STK,VAL) ; POPS THE LAST VALUE OFF THE STK AND RETURNS IT IN VAL
39	; VAL AND STK ARE PASSED BY REFERENCE
40	;
41	I @STK@(0)<1 D ; IF ARRAY IS EMPTY
42	. S VAL=""
43	. S @STK@(0)=0
44	I @STK@(0)>0 D ;
45	. S VAL=@STK@(@STK@(0))
46	. K @STK@(@STK@(0))
47	. S @STK@(0)=@STK@(0)-1 ; NEW DEPTH OF THE ARRAY
48	Q
49	;
50	PUSHA(ADEST,ASRC) ; PUSH ASRC ONTO ADEST, BOTH PASSED BY NAME
51	;
52	N ZGI
53	F ZGI=1:1:@ASRC@(0) D ; FOR ALL OF THE SOURCE ARRAY
54	. D PUSH(ADEST,@ASRC@(ZGI)) ; PUSH ONE ELEMENT
55	Q
56	;
57	MKMDX(STK,RTN,INREDUX) ; MAKES A MUMPS INDEX FROM THE ARRAY STK
58	; RTN IS SET TO //FIRST/SECOND/THIRD FOR THREE ARRAY ELEMENTS
59	; REDUX IS A STRING TO REMOVE FROM THE RESULT
60	S RTN=""
61	N I
62	; W "STK= ",STK,!
63	I @STK@(0)>0 D ; IF THE ARRAY IS NOT EMPTY
64	. S RTN="//"_@STK@(1) ; FIRST ELEMENT NEEDS NO SEMICOLON
65	. I @STK@(0)>1 D ; SUBSEQUENT ELEMENTS NEED A SEMICOLON
66	. . F I=2:1:@STK@(0) S RTN=RTN_"/"_@STK@(I)
67	I $G(INREDUX)'="" S RTN=$P(RTN,INREDUX,1)_$P(RTN,INREDUX,2)
68	Q
69	;
70	XNAME(ISTR) ; FUNCTION TO EXTRACT A NAME FROM AN XML FRAG
71	; </NAME> AND <NAME ID=XNAME> WILL RETURN NAME
72	; ISTR IS PASSED BY VALUE
73	N CUR,TMP
74	I ISTR?.E1"<".E D ; STRIP OFF LEFT BRACKET
75	. S TMP=$P(ISTR,"<",2)
76	I TMP?1"/".E D ; ALSO STRIP OFF SLASH IF PRESENT IE </NAME>
77	. S TMP=$P(TMP,"/",2)
78	S CUR=$P(TMP,">",1) ; EXTRACT THE NAME
79	; W "CUR= ",CUR,!
80	I CUR?.1"_"1.A1" ".E D ; CONTAINS A BLANK IE NAME ID=TEST>
81	. S CUR=$P(CUR," ",1) ; STRIP OUT BLANK AND AFTER
82	; W "CUR2= ",CUR,!
83	Q CUR
84	;
85	XVAL(ISTR) ; EXTRACTS THE VALUE FROM A FRAGMENT OF XML
86	; <NAME>VALUE</NAME> WILL RETURN VALUE
87	N G
88	S G=$P(ISTR,">",2) ;STRIP OFF <NAME>
89	Q $P(G,"<",1) ; STRIP OFF </NAME> LEAVING VALUE
90	;
91	VDX2VDV(OUTVDV,INVDX) ; CONVERT AN VDX ARRAY TO VDV
92	; VDX: @INVDX@(XPATH)=VALUE
93	; VDV: @OUTVDV@(X1X2X3X4)=VALUE
94	; THE VDV DATANAMES MIGHT BE MORE CONVENIENT FOR USE IN CODE
95	; AN INDEX IS PROVIDED TO GO BACK TO VDX FOR CONVERSIONS
96	; @VDV@("XPATH",X1X2X3X4)="XPATH"
97	N ZA,ZI,ZW
98	S ZI=""
99	F S ZI=$O(@INVDX@(ZI)) Q:ZI="" D ;
100	. S ZW=$TR(ZI,"/","") ; ELIMINATE ALL SLASHES - CAMEL CASE VARIABLE NAME
101	. W ZW,!
102	. S @OUTVDV@(ZW)=@INVDX@(ZI)
103	. S @OUTVDV@("XPATH",ZW)=ZI
104	Q
105	;
106	VDX2XPG(OUTXPG,INVDX) ; CONVERT AN VDX ARRAY TO XPG
107	; VDX: @VDX@(XPATH)=VALUE
108	; XPG: @(VDX(X1,X2,X3,X4))@=VALUE
109	; THIS IS A STEP TOWARD GENERATING XML FROM A VDX
110	N ZA,ZI,ZW
111	S ZI=""
112	F S ZI=$O(@INVDX@(ZI)) Q:ZI="" D ;
113	. S ZW=$E(ZI,3,$L(ZI)) ; STRIP OFF INITIAL //
114	. S ZW2=$P(ZW,"/",1)
115	. F ZK=1:1:$L(ZW,"/") D PUSH("ZA",$P(ZW,"/",ZK))
116	. ;ZWR ZA
117	. S ZW2=ZA(1)
118	. F ZK=2:1:ZA(0) D ;
119	. . S ZW2=ZW2_""","""_ZA(ZK)
120	. K ZA
121	. S ZW2=""""_ZW2_""""
122	. W ZW2,!
123	. S ZN=OUTXPG_"("_ZW2_")"
124	. S @ZN=@INVDX@(ZI)
125	Q
126	;
127	XML2XPG(OUTXPG,INXML) ; CONVERT AN XML ARRAY, PASSED BY NAME TO AN XPG ARRAY
128	; XPG MEANS XPATH GLOBAL AND HAS THE FORM @OUTXPG@("X1","X2","X3")=VALUE
129	;
130	;N G1
131	D INDEX(INXML,"G1",1) ; PRODUCES A VDX ARRAY IN G1, NO INDEX IS PRODUCED
132	D VDX2XPG(OUTXPG,"G1") ; CONVERTS THE VDX ARRAY TO XPG FORM
133	Q
134	;
135	DO
136	D XPG2XML("^GPL2B","^GPL2A")
137	Q
138	;
139	T1 ; TEST OUT THESE ROUTINES
140	D XML2XPG("G2","^GPL")
141	D XPG2XML("G3","G2")
142	K ^GPLOUT
143	M ^GPLOUT=G3
144	W $$OUTPUT^C0CXPATH("^GPLOUT(1)","GPLTEST.xml","/home/vademo2/EHR/p")
145	Q
146	;
147	XPG2XML(OUTXML,INXPG) ;
148	N C0CN,FWD,ZA,G,GA,ZQ
149	S ZQ=0 ; QUIT FLAG
150	F Q:ZQ=1 D ; LOOP THROUGH EVERYTHING
151	. I '$D(C0CN) D ; FIRST TIME THROUGH
152	. . K @OUTXML ; MAKE SURE OUTPUT ARRAY IS CLEAR
153	. . S FWD=1 ; START OUT GOING FORWARD THROUGH SUBSCRIPTS
154	. . S G=$Q(@INXPG) ; THIS ONE
155	. . S GN=$Q(@G) ; NEXT ONE
156	. . S C0CN=1 ; SUBSCRIPT COUNT
157	. . S ZQ=0 ; QUIT FLAG
158	. . D ZXO("?xml version=""1.0"" encoding=""UTF-8""?") ;MAKE IT REAL XML
159	. . I $QS(G,1)="ContinuityOfCareRecord" D ;
160	. . . D ZXO("?xml-stylesheet type=""text/xsl"" href=""ccr.xsl""?") ; HACK TO MAKE THE CCR STYLESHEET WORK
161	. I FWD D ; GOING FORWARDS
162	. . I C0CN<$QL(G) D ; NOT A DATA NODE
163	. . . S ZA=$QS(G,C0CN) ; PULL OUT THE SUBSCRIPT
164	. . . D ZXO(ZA) ; AND OPEN AN XML ELEMENT
165	. . . I @OUTXML@(@OUTXML@(0))="<ContinuityOfCareRecord>" D ;
166	. . . . S @OUTXML@(@OUTXML@(0))="<ContinuityOfCareRecord xmlns=""urn:astm-org:CCR"">"
167	. . . S C0CN=C0CN+1 ; MOVE TO THE NEXT ONE
168	. . E D ; AT THE DATA NODE
169	. . . S ZA=$QS(G,C0CN) ; PULL OUT THE SUBSCRIPT
170	. . . D ZXVAL(ZA,@G) ; OUTPUT <X>VAL</X> FOR DATA NODE
171	. . . S FWD=0 ; GO BACKWARDS
172	. I 'FWD D ;GOING BACKWARDS
173	. . S GN=$Q(@G) ;NEXT XPATH
174	. . ;W "NEXT!",GN,!
175	. . S C0CN=C0CN-1 ; PREVIOUS SUBSCRIPT
176	. . I GN'="" D ;
177	. . . I $QS(G,C0CN)'=$QS(GN,C0CN) D ; NEED TO CLOSE OFF ELEMENT
178	. . . . D ZXC($QS(G,C0CN)) ;
179	. . . E I GN'="" D ; MORE ELEMENTS AT THIS LEVEL
180	. . . . S G=$Q(@G) ; ADVANCE TO NEW XPATH
181	. . . . S C0CN=C0CN+1 ; GET READY TO PROCESS NEXT SUBSCRIPT
182	. . . . S FWD=1 ; GOING FORWARD NOW
183	. I (GN="")&(C0CN=1) D Q ; WHEN WE ARE ALL DONE
184	. . D ZXC($QS(G,C0CN)) ; LAST ONE
185	. . S ZQ=1 ; QUIT NOW
186	Q
187	;
188	ZXO(WHAT)
189	D PUSH("GA",WHAT)
190	D PUSH(OUTXML,"<"_WHAT_">")
191	Q
192	;
193	ZXC(WHAT)
194	D POP("GA",.TMP)
195	D PUSH(OUTXML,"</"_WHAT_">")
196	Q
197	;
198	ZXVAL(WHAT,VAL)
199	D PUSH(OUTXML,"<"_WHAT_">"_VAL_"</"_WHAT_">")
200	Q
201	;
202	INDEX(IZXML,VDX,NOINX,TEMPLATE,REDUX) ; parse XML in IZXML and produce
203	; an XPATH index; REDUX is a string to be removed from each xpath
204	; GPL 7/14/09 OPTIONALLY GENERATE AN XML TEMPLATE IF PASSED BY NAME
205	; TEMPLATE IS IDENTICAL TO THE PARSED XML LINE BY LINE
206	; EXCEPT THAT DATA VALUES ARE REPLACED WITH @@XPATH@@ FOR THE XPATH OF THE TAG
207	; GPL 5/24/09 AND OPTIONALLY PRODUCE THE VDX ARRAY PASSED BY NAME
208	; @VDX@("XPATH")=VALUE
209	; ex. @IZXML@("XPATH")=FIRSTLINE^LASTLINE
210	; WHERE FIRSTLINE AND LASTLINE ARE THE BEGINNING AND ENDING OF THE
211	; XML SECTION
212	; IZXML IS PASSED BY NAME
213	; IF NOINX IS SET TO 1, NO INDEX WILL BE GENERATED, BUT THE VDX WILL BE
214	N I,LINE,FIRST,LAST,CUR,TMP,MDX,FOUND,CURVAL,DVDX,LCNT
215	N C0CSTK ; LEAVE OUT FOR DEBUGGING
216	I '$D(REDUX) S REDUX=""
217	I '$D(NOINX) S NOINX=0 ; IF NOT PASSED, GENERATE AN INDEX
218	N ZXML
219	I NOINX S ZXML=$NA(^TMP("C0CINDEX",$J)) ; TEMP PLACE FOR INDEX TO DISCARD
220	E S ZXML=IZXML ; PLACE FOR INDEX TO KEEP
221	I '$D(@IZXML@(0)) D ; IF COUNT NOT IN NODE 0 COUNT THEM
222	. S I="",LCNT=0
223	. F S I=$O(@IZXML@(I)) Q:I="" S LCNT=LCNT+1
224	E S LCNT=@IZXML@(0) ; LINE COUNT PASSED IN ARRAY
225	I LCNT=0 D Q ; NO XML PASSED
226	. W "ERROR IN XML FILE",!
227	S DVDX=0 ; DEFAULT DO NOT PRODUCE VDX INDEX
228	I $D(VDX) S DVDX=1 ; IF NAME PASSED, DO VDX
229	S C0CSTK(0)=0 ; INITIALIZE STACK
230	K LKASD ; KILL LOOKASIDE ARRAY
231	D MKLASD(.LKASD,IZXML) ;MAKE LOOK ASIDE BUFFER FOR MULTIPLES
232	F I=1:1:LCNT D ; PROCESS THE ENTIRE ARRAY
233	. S LINE=@IZXML@(I)
234	. I $D(TEMPLATE) D ;IF TEMPLATE IS REQUESTED
235	. . S @TEMPLATE@(I)=$$CLEAN(LINE)
236	. ;W LINE,!
237	. S FOUND=0 ; INTIALIZED FOUND FLAG
238	. I LINE?.E1"<!".E S FOUND=1 ; SKIP OVER COMMENTS
239	. I FOUND'=1 D
240	. . I (LINE?.E1"<"1.E1"</".E)!(LINE?.E1"<"1.E1"/>".E) D
241	. . . ; THIS IS THE CASE THERE SECTION BEGINS AND ENDS
242	. . . ; ON THE SAME LINE
243	. . . ; W "FOUND ",LINE,!
244	. . . S FOUND=1 ; SET FOUND FLAG
245	. . . S CUR=$$XNAME(LINE) ; EXTRACT THE NAME
246	. . . S CUR=CUR_$G(LKASD(CUR,I)) ; HANDLE MULTIPLES
247	. . . D PUSH("C0CSTK",CUR) ; ADD TO THE STACK
248	. . . D MKMDX("C0CSTK",.MDX,REDUX) ; GENERATE THE M INDEX
249	. . . ; W "MDX=",MDX,!
250	. . . I $D(@ZXML@(MDX)) D ; IN THE INDEX, IS A MULTIPLE
251	. . . . ;I '$D(ZDUP(MDX)) S ZDUP(MDX)=2
252	. . . . ;E S ZDUP(MDX)=ZDUP(MDX)+1
253	. . . . ;W "DUP:",MDX,!
254	. . . . ;I '$D(CURVAL) S CURVAL=""
255	. . . . ;I DVDX S @VDX@(MDX_"["_ZDUP(MDX)_"]")=CURVAL
256	. . . . S $P(@ZXML@(MDX),"^",2)=I ; UPDATE LAST LINE NUMBER
257	. . . I '$D(@ZXML@(MDX)) D ; NOT IN THE INDEX, NOT A MULTIPLE
258	. . . . S @ZXML@(MDX)=I_"^"_I ; ADD INDEX ENTRY-FIRST AND LAST
259	. . . . S CURVAL=$$XVAL(LINE) ; VALUE
260	. . . . S $P(@ZXML@(MDX),"^",3)=CURVAL ; THIRD PIECE
261	. . . . I DVDX S @VDX@(MDX)=CURVAL ; FILL IN VDX ARRAY IF REQUESTED
262	. . . . I $D(TEMPLATE) D ; IF TEMPLATE IS REQUESTED
263	. . . . . S LINE=$$CLEAN(LINE) ; CLEAN OUT CONTROL CHARACTERS
264	. . . . . S @TEMPLATE@(I)=$P(LINE,">",1)_">@@"_MDX_"@@</"_$P(LINE,"</",2)
265	. . . D POP("C0CSTK",.TMP) ; REMOVE FROM STACK
266	. I FOUND'=1 D ; THE LINE DOESN'T CONTAIN THE START AND END
267	. . I LINE?.E1"</"1.E D ; LINE CONTAINS END OF A SECTION
268	. . . ; W "FOUND ",LINE,!
269	. . . S FOUND=1 ; SET FOUND FLAG
270	. . . S CUR=$$XNAME(LINE) ; EXTRACT THE NAME
271	. . . D MKMDX("C0CSTK",.MDX) ; GENERATE THE M INDEX
272	. . . S $P(@ZXML@(MDX),"^",2)=I ; UPDATE LAST LINE NUMBER
273	. . . D POP("C0CSTK",.TMP) ; REMOVE FROM STACK
274	. . . S TMP=$P(TMP,"[",1) ; REMOVE [X] FROM MULTIPLE
275	. . . I TMP'=CUR D ; MALFORMED XML, END MUST MATCH START
276	. . . . W "MALFORMED XML ",CUR,"LINE "_I_LINE,!
277	. . . . D PARY("C0CSTK") ; PRINT OUT THE STACK FOR DEBUGING
278	. . . . Q
279	. I FOUND'=1 D ; THE LINE MIGHT CONTAIN A SECTION BEGINNING
280	. . I (LINE?.E1"<"1.E)&(LINE'["?>") D ; BEGINNING OF A SECTION
281	. . . ; W "FOUND ",LINE,!
282	. . . S FOUND=1 ; SET FOUND FLAG
283	. . . S CUR=$$XNAME(LINE) ; EXTRACT THE NAME
284	. . . S CUR=CUR_$G(LKASD(CUR,I)) ; HANDLE MULTIPLES
285	. . . D PUSH("C0CSTK",CUR) ; ADD TO THE STACK
286	. . . D MKMDX("C0CSTK",.MDX) ; GENERATE THE M INDEX
287	. . . ; W "MDX=",MDX,!
288	. . . I $D(@ZXML@(MDX)) D ; IN THE INDEX, IS A MULTIPLE
289	. . . . S $P(@ZXML@(MDX),"^",2)=I ; UPDATE LAST LINE NUMBER
290	. . . . ;B
291	. . . I '$D(@ZXML@(MDX)) D ; NOT IN THE INDEX, NOT A MULTIPLE
292	. . . . S @ZXML@(MDX)=I_"^" ; INSERT INTO THE INDEX
293	S @ZXML@("INDEXED")=""
294	S @ZXML@("//")="1^"_LCNT ; ROOT XPATH
295	I NOINX K @ZXML ; DELETE UNWANTED INDEX
296	Q
297	;
298	MKLASD(OUTBUF,INARY) ; CREATE A LOOKASIDE BUFFER FOR MULTILPLES
299	;
300	N ZI,ZN,ZA,ZLINE,ZLINE2,CUR,CUR2
301	F ZI=1:1:LCNT-1 D ; PROCESS THE ENTIRE ARRAY
302	. S ZLINE=@IZXML@(ZI)
303	. I ZI<LCNT S ZLINE2=@IZXML@(ZI+1)
304	. I ZLINE?.E1"</"1.E D ; NEXT LINE CONTAINS END OF A SECTION
305	. . S CUR=$$XNAME(ZLINE) ; EXTRACT THE NAME
306	. . I (ZLINE2?.E1"<"1.E)&(ZLINE'["?>") D ; BEGINNING OF A SECTION
307	. . . S CUR2=$$XNAME(ZLINE2) ; EXTRACT THE NAME
308	. . . I CUR=CUR2 D ; IF THIS IS A MULTIPLE
309	. . . . S OUTBUF(CUR,ZI+1)=""
310	;ZWR OUTBUF
311	S ZI=""
312	F S ZI=$O(OUTBUF(ZI)) Q:ZI="" D ; FOR EACH KIND OF MULTIPLE
313	. S ZN=$O(OUTBUF(ZI,"")) ; LINE NUMBER OF SECOND MULTIPLE
314	. F S ZN=$O(@IZXML@(ZN),-1) Q:ZN="" I $E($P(@IZXML@(ZN),"<"_ZI,2),1,1)=">" Q ;
315	. S OUTBUF(ZI,ZN)=""
316	S ZA=1,ZI="",ZN=""
317	F S ZI=$O(OUTBUF(ZI)) Q:ZI="" D ; ADDING THE COUNT FOR THE MULIPLES [x]
318	. S ZN="",ZA=1
319	. F S ZN=$O(OUTBUF(ZI,ZN)) Q:ZN="" D ;
320	. . S OUTBUF(ZI,ZN)="["_ZA_"]"
321	. . S ZA=ZA+1
322	Q
323	;
324	CLEAN(STR,TR) ; extrinsic function; returns string
325	;; Removes all non printable characters from a string.
326	;; STR by Value
327	;; TR IS OPTIONAL TO IMPROVE PERFORMANCE
328	N TR,I
329	I '$D(TR) D ;
330	. F I=0:1:31 S TR=$G(TR)_$C(I)
331	. S TR=TR_$C(127)
332	QUIT $TR(STR,TR)
333	;
334	QUERY(IARY,XPATH,OARY) ; RETURNS THE XML ARRAY MATCHING THE XPATH EXPRESSION
335	; XPATH IS OF THE FORM "//FIRST/SECOND/THIRD"
336	; IARY AND OARY ARE PASSED BY NAME
337	I '$D(@IARY@("INDEXED")) D ; INDEX IS NOT PRESENT IN IARY
338	. D INDEX(IARY) ; GENERATE AN INDEX FOR THE XML
339	N FIRST,LAST ; FIRST AND LAST LINES OF ARRAY TO RETURN
340	N TMP,I,J,QXPATH
341	S FIRST=1
342	I '$D(@IARY@(0)) D ; LINE COUNT NOT IN ZERO NODE
343	. S @IARY@(0)=$O(@IARY@("//"),-1) ; THIS SHOULD USUALLY WORK
344	S LAST=@IARY@(0) ; FIRST AND LAST DEFAULT TO ROOT
345	I XPATH'="//" D ; NOT A ROOT QUERY
346	. S TMP=@IARY@(XPATH) ; LOOK UP LINE VALUES
347	. S FIRST=$P(TMP,"^",1)
348	. S LAST=$P(TMP,"^",2)
349	K @OARY
350	S @OARY@(0)=+LAST-FIRST+1
351	S J=1
352	FOR I=FIRST:1:LAST D
353	. S @OARY@(J)=@IARY@(I) ; COPY THE LINE TO OARY
354	. S J=J+1
355	; ZWR OARY
356	Q
357	;
358	XF(IDX,XPATH) ; EXTRINSIC TO RETURN THE STARTING LINE FROM AN XPATH
359	; INDEX WITH TWO PIECES START^FINISH
360	; IDX IS PASSED BY NAME
361	Q $P(@IDX@(XPATH),"^",1)
362	;
363	XL(IDX,XPATH) ; EXTRINSIC TO RETURN THE LAST LINE FROM AN XPATH
364	; INDEX WITH TWO PIECES START^FINISH
365	; IDX IS PASSED BY NAME
366	Q $P(@IDX@(XPATH),"^",2)
367	;
368	START(ISTR) ; EXTRINSIC TO RETURN THE STARTING LINE FROM AN INDEX
369	; TYPE STRING WITH THREE PIECES ARRAY;START;FINISH
370	; COMPANION TO FINISH ; IDX IS PASSED BY NAME
371	Q $P(ISTR,";",2)
372	;
373	FINISH(ISTR) ; EXTRINSIC TO RETURN THE LAST LINE FROM AN INDEX
374	; TYPE STRING WITH THREE PIECES ARRAY;START;FINISH
375	Q $P(ISTR,";",3)
376	;
377	ARRAY(ISTR) ; EXTRINSIC TO RETURN THE ARRAY REFERENCE FROM AN INDEX
378	; TYPE STRING WITH THREE PIECES ARRAY;START;FINISH
379	Q $P(ISTR,";",1)
380	;
381	BUILD(BLIST,BDEST) ; A COPY MACHINE THAT TAKE INSTRUCTIONS IN ARRAY BLIST
382	; WHICH HAVE ARRAY;START;FINISH AND COPIES THEM TO DEST
383	; DEST IS CLEARED TO START
384	; USES PUSH TO DO THE COPY
385	N I
386	K @BDEST
387	F I=1:1:@BLIST@(0) D ; FOR EACH INSTRUCTION IN BLIST
388	. N J,ATMP
389	. S ATMP=$$ARRAY(@BLIST@(I))
390	. I $G(DEBUG) W "ATMP=",ATMP,!
391	. I $G(DEBUG) W @BLIST@(I),!
392	. F J=$$START(@BLIST@(I)):1:$$FINISH(@BLIST@(I)) D ;
393	. . ; FOR EACH LINE IN THIS INSTR
394	. . I $G(DEBUG) W "BDEST= ",BDEST,!
395	. . I $G(DEBUG) W "ATMP= ",@ATMP@(J),!
396	. . D PUSH(BDEST,@ATMP@(J))
397	Q
398	;
399	QUEUE(BLST,ARRAY,FIRST,LAST) ; ADD AN ENTRY TO A BLIST
400	;
401	I $G(DEBUG) W "QUEUEING ",BLST,!
402	D PUSH(BLST,ARRAY_";"_FIRST_";"_LAST)
403	Q
404	;
405	CP(CPSRC,CPDEST) ; COPIES CPSRC TO CPDEST BOTH PASSED BY NAME
406	; KILLS CPDEST FIRST
407	N CPINSTR
408	I $G(DEBUG) W "MADE IT TO COPY",CPSRC,CPDEST,!
409	I @CPSRC@(0)<1 D ; BAD LENGTH
410	. W "ERROR IN COPY BAD SOURCE LENGTH: ",CPSRC,!
411	. Q
412	; I '$D(@CPDEST@(0)) S @CPDEST@(0)=0 ; IF THE DEST IS EMPTY, INIT
413	D QUEUE("CPINSTR",CPSRC,1,@CPSRC@(0)) ; BLIST FOR ENTIRE ARRAY
414	D BUILD("CPINSTR",CPDEST)
415	Q
416	;
417	QOPEN(QOBLIST,QOXML,QOXPATH) ; ADD ALL BUT THE LAST LINE OF QOXML TO QOBLIST
418	; WARNING NEED TO DO QCLOSE FOR SAME XML BEFORE CALLING BUILD
419	; QOXPATH IS OPTIONAL - WILL OPEN INSIDE THE XPATH POINT
420	; USED TO INSERT CHILDREN NODES
421	I @QOXML@(0)<1 D ; MALFORMED XML
422	. W "MALFORMED XML PASSED TO QOPEN: ",QOXML,!
423	. Q
424	I $G(DEBUG) W "DOING QOPEN",!
425	N S1,E1,QOT,QOTMP
426	S S1=1 ; OPEN FROM THE BEGINNING OF THE XML
427	I $D(QOXPATH) D ; XPATH PROVIDED
428	. D QUERY(QOXML,QOXPATH,"QOT") ; INSURE INDEX
429	. S E1=$P(@QOXML@(QOXPATH),"^",2)-1
430	I '$D(QOXPATH) D ; NO XPATH PROVIDED, OPEN AT ROOT
431	. S E1=@QOXML@(0)-1
432	D QUEUE(QOBLIST,QOXML,S1,E1)
433	; S QOTMP=QOXML_"^"_S1_"^"_E1
434	; D PUSH(QOBLIST,QOTMP)
435	Q
436	;
437	QCLOSE(QCBLIST,QCXML,QCXPATH) ; CLOSE XML AFTER A QOPEN
438	; ADDS THE LIST LINE OF QCXML TO QCBLIST
439	; USED TO FINISH INSERTING CHILDERN NODES
440	; QCXPATH IS OPTIONAL - IF PROVIDED, WILL CLOSE UNTIL THE END
441	; IF QOPEN WAS CALLED WITH XPATH, QCLOSE SHOULD BE TOO
442	I @QCXML@(0)<1 D ; MALFORMED XML
443	. W "MALFORMED XML PASSED TO QCLOSE: ",QCXML,!
444	I $G(DEBUG) W "GOING TO CLOSE",!
445	N S1,E1,QCT,QCTMP
446	S E1=@QCXML@(0) ; CLOSE UNTIL THE END OF THE XML
447	I $D(QCXPATH) D ; XPATH PROVIDED
448	. D QUERY(QCXML,QCXPATH,"QCT") ; INSURE INDEX
449	. S S1=$P(@QCXML@(QCXPATH),"^",2) ; REMAINING XML
450	I '$D(QCXPATH) D ; NO XPATH PROVIDED, CLOSE AT ROOT
451	. S S1=@QCXML@(0)
452	D QUEUE(QCBLIST,QCXML,S1,E1)
453	; D PUSH(QCBLIST,QCXML_";"_S1_";"_E1)
454	Q
455	;
456	INSERT(INSXML,INSNEW,INSXPATH) ; INSERT INSNEW INTO INSXML AT THE
457	; INSXPATH XPATH POINT INSXPATH IS OPTIONAL - IF IT IS
458	; OMITTED, INSERTION WILL BE AT THE ROOT
459	; NOTE INSERT IS NON DESTRUCTIVE AND WILL ADD THE NEW
460	; XML AT THE END OF THE XPATH POINT
461	; INSXML AND INSNEW ARE PASSED BY NAME INSXPATH IS A VALUE
462	N INSBLD,INSTMP
463	I $G(DEBUG) W "DOING INSERT ",INSXML,INSNEW,INSXPATH,!
464	I $G(DEBUG) F G1=1:1:@INSXML@(0) W @INSXML@(G1),!
465	I '$D(@INSXML@(1)) D ; INSERT INTO AN EMPTY ARRAY
466	. D CP^C0CXPATH(INSNEW,INSXML) ; JUST COPY INTO THE OUTPUT
467	I $D(@INSXML@(1)) D ; IF ORIGINAL ARRAY IS NOT EMPTY
468	. I '$D(@INSXML@(0)) S @INSXML@(0)=$O(@INSXML@(""),-1) ;SET LENGTH
469	. I $D(INSXPATH) D ; XPATH PROVIDED
470	. . D QOPEN("INSBLD",INSXML,INSXPATH) ; COPY THE BEFORE
471	. . I $G(DEBUG) D PARY^C0CXPATH("INSBLD")
472	. I '$D(INSXPATH) D ; NO XPATH PROVIDED, OPEN AT ROOT
473	. . D QOPEN("INSBLD",INSXML,"//") ; OPEN WITH ROOT XPATH
474	. I '$D(@INSNEW@(0)) S @INSNEW@(0)=$O(@INSNEW@(""),-1) ;SIZE OF XML
475	. D QUEUE("INSBLD",INSNEW,1,@INSNEW@(0)) ; COPY IN NEW XML
476	. I $D(INSXPATH) D ; XPATH PROVIDED
477	. . D QCLOSE("INSBLD",INSXML,INSXPATH) ; CLOSE WITH XPATH
478	. I '$D(INSXPATH) D ; NO XPATH PROVIDED, CLOSE AT ROOT
479	. . D QCLOSE("INSBLD",INSXML,"//") ; CLOSE WITH ROOT XPATH
480	. D BUILD("INSBLD","INSTMP") ; PUT RESULTS IN INDEST
481	. D CP^C0CXPATH("INSTMP",INSXML) ; COPY BUFFER TO SOURCE
482	Q
483	;
484	INSINNER(INNXML,INNNEW,INNXPATH) ; INSERT THE INNER XML OF INNNEW
485	; INTO INNXML AT THE INNXPATH XPATH POINT
486	;
487	N INNBLD,UXPATH
488	N INNTBUF
489	S INNTBUF=$NA(^TMP($J,"INNTBUF"))
490	I '$D(INNXPATH) D ; XPATH NOT PASSED
491	. S UXPATH="//" ; USE ROOT XPATH
492	I $D(INNXPATH) S UXPATH=INNXPATH ; USE THE XPATH THAT'S PASSED
493	I '$D(@INNXML@(0)) D ; INNXML IS EMPTY
494	. D QUEUE^C0CXPATH("INNBLD",INNNEW,2,@INNNEW@(0)-1) ; JUST INNER
495	. D BUILD("INNBLD",INNXML)
496	I @INNXML@(0)>0 D ; NOT EMPTY
497	. D QOPEN("INNBLD",INNXML,UXPATH) ;
498	. D QUEUE("INNBLD",INNNEW,2,@INNNEW@(0)-1) ; JUST INNER XML
499	. D QCLOSE("INNBLD",INNXML,UXPATH)
500	. D BUILD("INNBLD",INNTBUF) ; BUILD TO BUFFER
501	. D CP(INNTBUF,INNXML) ; COPY BUFFER TO DEST
502	Q
503	;
504	INSB4(XDEST,XNEW) ; INSERT XNEW AT THE BEGINNING OF XDEST
505	; BUT XDEST AN XNEW ARE PASSED BY NAME
506	N XBLD,XTMP
507	D QUEUE("XBLD",XDEST,1,1) ; NEED TO PRESERVE SECTION ROOT
508	D QUEUE("XBLD",XNEW,1,@XNEW@(0)) ; ALL OF NEW XML FIRST
509	D QUEUE("XBLD",XDEST,2,@XDEST@(0)) ; FOLLOWED BY THE REST OF SECTION
510	D BUILD("XBLD","XTMP") ; BUILD THE RESULT
511	D CP("XTMP",XDEST) ; COPY TO THE DESTINATION
512	I $G(DEBUG) D PARY("XDEST")
513	Q
514	;
515	REPLACE(REXML,RENEW,REXPATH) ; REPLACE THE XML AT THE XPATH POINT
516	; WITH RENEW - NOTE THIS WILL DELETE WHAT WAS THERE BEFORE
517	; REXML AND RENEW ARE PASSED BY NAME XPATH IS A VALUE
518	; THE DELETED XML IS PUT IN ^TMP($J,"REPLACE_OLD")
519	N REBLD,XFIRST,XLAST,OLD,XNODE,RETMP
520	S OLD=$NA(^TMP($J,"REPLACE_OLD"))
521	D QUERY(REXML,REXPATH,OLD) ; CREATE INDEX, TEST XPATH, MAKE OLD
522	S XNODE=@REXML@(REXPATH) ; PULL OUT FIRST AND LAST LINE PTRS
523	S XFIRST=$P(XNODE,"^",1)
524	S XLAST=$P(XNODE,"^",2)
525	I RENEW="" D ; WE ARE DELETING A SECTION, MUST SAVE THE TAG
526	. D QUEUE("REBLD",REXML,1,XFIRST) ; THE BEFORE
527	. D QUEUE("REBLD",REXML,XLAST,@REXML@(0)) ; THE REST
528	I RENEW'="" D ; NEW XML IS NOT NULL
529	. D QUEUE("REBLD",REXML,1,XFIRST-1) ; THE BEFORE
530	. D QUEUE("REBLD",RENEW,1,@RENEW@(0)) ; THE NEW
531	. D QUEUE("REBLD",REXML,XLAST+1,@REXML@(0)) ; THE REST
532	I $G(DEBUG) W "REPLACE PREBUILD",!
533	I $G(DEBUG) D PARY("REBLD")
534	D BUILD("REBLD","RTMP")
535	K @REXML ; KILL WHAT WAS THERE
536	D CP("RTMP",REXML) ; COPY IN THE RESULT
537	Q
538	;
539	DELETE(REXML,REXPATH) ; DELETE THE XML AT THE XPATH POINT
540	; REXML IS PASSED BY NAME XPATH IS A VALUE
541	N REBLD,XFIRST,XLAST,OLD,XNODE,RETMP
542	S OLD=$NA(^TMP($J,"REPLACE_OLD"))
543	D QUERY(REXML,REXPATH,OLD) ; CREATE INDEX, TEST XPATH, MAKE OLD
544	S XNODE=@REXML@(REXPATH) ; PULL OUT FIRST AND LAST LINE PTRS
545	S XFIRST=$P(XNODE,"^",1)
546	S XLAST=$P(XNODE,"^",2)
547	D QUEUE("REBLD",REXML,1,XFIRST-1) ; THE BEFORE
548	D QUEUE("REBLD",REXML,XLAST+1,@REXML@(0)) ; THE REST
549	I $G(DEBUG) D PARY("REBLD")
550	D BUILD("REBLD","RTMP")
551	K @REXML ; KILL WHAT WAS THERE
552	D CP("RTMP",REXML) ; COPY IN THE RESULT
553	Q
554	;
555	MISSING(IXML,OARY) ; SEARTH THROUGH INXLM AND PUT ANY @@X@@ VARS IN OARY
556	; W "Reporting on the missing",!
557	; W OARY
558	I '$D(@IXML@(0)) W "MALFORMED XML PASSED TO MISSING",! Q
559	N I
560	S @OARY@(0)=0 ; INITIALIZED MISSING COUNT
561	F I=1:1:@IXML@(0) D ; LOOP THROUGH WHOLE ARRAY
562	. I @IXML@(I)?.E1"@@".E D ; MISSING VARIABLE HERE
563	. . D PUSH^C0CXPATH(OARY,$P(@IXML@(I),"@@",2)) ; ADD TO OUTARY
564	. . Q
565	Q
566	;
567	MAP(IXML,INARY,OXML) ; SUBSTITUTE MULTIPLE @@X@@ VARS WITH VALUES IN INARY
568	; AND PUT THE RESULTS IN OXML
569	N XCNT
570	I '$D(DEBUG) S DEBUG=0
571	I '$D(IXML) W "MALFORMED XML PASSED TO MAP",! Q
572	I '$D(@IXML@(0)) D ; INITIALIZE COUNT
573	. S XCNT=$O(@IXML@(""),-1)
574	E S XCNT=@IXML@(0) ;COUNT
575	I $O(@INARY@(""))="" W "EMPTY ARRAY PASSED TO MAP",! Q
576	N I,J,TNAM,TVAL,TSTR
577	S @OXML@(0)=XCNT ; TOTAL LINES IN OUTPUT
578	F I=1:1:XCNT D ; LOOP THROUGH WHOLE ARRAY
579	. S @OXML@(I)=@IXML@(I) ; COPY THE LINE TO OUTPUT
580	. I @OXML@(I)?.E1"@@".E D ; IS THERE A VARIABLE HERE?
581	. . S TSTR=$P(@IXML@(I),"@@",1) ; INIT TO PART BEFORE VARS
582	. . F J=2:2:10 D Q:$P(@IXML@(I),"@@",J+2)="" ; QUIT IF NO MORE VARS
583	. . . I DEBUG W "IN MAPPING LOOP: ",TSTR,!
584	. . . S TNAM=$P(@OXML@(I),"@@",J) ; EXTRACT THE VARIABLE NAME
585	. . . S TVAL="@@"_$P(@IXML@(I),"@@",J)_"@@" ; DEFAULT UNCHANGED
586	. . . I $D(@INARY@(TNAM)) D ; IS THE VARIABLE IN THE MAP?
587	. . . . I '$D(@INARY@(TNAM,"F")) D ; NOT A SPECIAL FIELD
588	. . . . . S TVAL=@INARY@(TNAM) ; PULL OUT MAPPED VALUE
589	. . . . E D DOFLD ; PROCESS A FIELD
590	. . . S TVAL=$$SYMENC^MXMLUTL(TVAL) ;MAKE SURE THE VALUE IS XML SAFE
591	. . . S TSTR=TSTR_TVAL_$P(@IXML@(I),"@@",J+1) ; ADD VAR AND PART AFTER
592	. . S @OXML@(I)=TSTR ; COPY LINE WITH MAPPED VALUES
593	. . I DEBUG W TSTR
594	I DEBUG W "MAPPED",!
595	Q
596	;
597	DOFLD ; PROCESS A FILEMAN FIELD REFERENCED BY A VARIABLE
598	;
599	Q
600	;
601	TRIM(THEXML) ; TAKES OUT ALL NULL ELEMENTS
602	; THEXML IS PASSED BY NAME
603	N I,J,TMPXML,DEL,FOUND,INTXT
604	S FOUND=0
605	S INTXT=0
606	I $G(DEBUG) W "DELETING EMPTY ELEMENTS",!
607	F I=1:1:(@THEXML@(0)-1) D ; LOOP THROUGH ENTIRE ARRAY
608	. S J=@THEXML@(I)
609	. I J["<text>" D
610	. . S INTXT=1 ; IN HTML SECTION, DON'T TRIM
611	. . I $G(DEBUG) W "IN HTML SECTION",!
612	. N JM,JP,JPX ; JMINUS AND JPLUS
613	. S JM=@THEXML@(I-1) ; LINE BEFORE
614	. I JM["</text>" S INTXT=0 ; LEFT HTML SECTION,START TRIM
615	. S JP=@THEXML@(I+1) ; LINE AFTER
616	. I INTXT=0 D ; IF NOT IN AN HTML SECTION
617	. . S JPX=$TR(JP,"/","") ; REMOVE THE SLASH
618	. . I J=JPX D ; AN EMPTY ELEMENT ON TWO LINES
619	. . . I $G(DEBUG) W I,J,JP,!
620	. . . S FOUND=1 ; FOUND SOMETHING TO BE DELETED
621	. . . S DEL(I)="" ; SET LINE TO DELETE
622	. . . S DEL(I+1)="" ; SET NEXT LINE TO DELETE
623	. . I J["><" D ; AN EMPTY ELEMENT ON ONE LINE
624	. . . I $G(DEBUG) W I,J,!
625	. . . S FOUND=1 ; FOUND SOMETHING TO BE DELETED
626	. . . S DEL(I)="" ; SET THE EMPTY LINE UP TO BE DELETED
627	. . . I JM=JPX D ;
628	. . . . I $G(DEBUG) W I,JM_J_JPX,!
629	. . . . S DEL(I-1)=""
630	. . . . S DEL(I+1)="" ; SET THE SURROUNDING LINES FOR DEL
631	; . I J'["><" D PUSH("TMPXML",J)
632	I FOUND D ; NEED TO DELETE THINGS
633	. F I=1:1:@THEXML@(0) D ; COPY ARRAY LEAVING OUT DELELTED LINES
634	. . I '$D(DEL(I)) D ; IF THE LINE IS NOT DELETED
635	. . . D PUSH("TMPXML",@THEXML@(I)) ; COPY TO TMPXML ARRAY
636	. D CP("TMPXML",THEXML) ; REPLACE THE XML WITH THE COPY
637	Q FOUND
638	;
639	UNMARK(XSEC) ; REMOVE MARKUP FROM FIRST AND LAST LINE OF XML
640	; XSEC IS A SECTION PASSED BY NAME
641	N XBLD,XTMP
642	D QUEUE("XBLD",XSEC,2,@XSEC@(0)-1) ; BUILD LIST FOR INNER XML
643	D BUILD("XBLD","XTMP") ; BUILD THE RESULT
644	D CP("XTMP",XSEC) ; REPLACE PASSED XML
645	Q
646	;
647	PARY(GLO,ZN) ;PRINT AN ARRAY
648	; IF ZN=-1 NO LINE NUMBERS
649	N I
650	F I=1:1:@GLO@(0) D ;
651	. I $G(ZN)=-1 W @GLO@(I),!
652	. E W I_" "_@GLO@(I),!
653	Q
654	;
655	H2ARY(IARYRTN,IHASH,IPRE) ; CONVERT IHASH TO RETURN ARRAY
656	; IPRE IS OPTIONAL PREFIX FOR THE ELEMENTS. USED FOR MUPTIPLES 1^"VAR"^VALUE
657	I '$D(IPRE) S IPRE=""
658	N H2I S H2I=""
659	; W $O(@IHASH@(H2I)),!
660	F S H2I=$O(@IHASH@(H2I)) Q:H2I="" D ; FOR EACH ELEMENT OF THE HASH
661	. I $QS(H2I,$QL(H2I))="M" D Q ; SPECIAL CASE FOR MULTIPLES
662	. . ;W H2I_"^"_@IHASH@(H2I),!
663	. . N IH,IHI
664	. . S IH=$NA(@IHASH@(H2I)) ;
665	. . S IH2A=$O(@IH@("")) ; SKIP OVER MULTIPLE DISCRIPTOR
666	. . S IH2=$NA(@IH@(IH2A)) ; PAST THE "M","DIRETIONS" FOR EXAMPLE
667	. . S IHI="" ; INDEX INTO "M" MULTIPLES
668	. . F S IHI=$O(@IH2@(IHI)) Q:IHI="" D ; FOR EACH SUB-MULTIPLE
669	. . . ; W @IH@(IHI)
670	. . . S IH3=$NA(@IH2@(IHI))
671	. . . ; W "HEY",IH3,!
672	. . . D H2ARY(.IARYRTN,IH3,IPRE_";"_IHI) ; RECURSIVE CALL - INDENTED ELEMENTS
673	. . ; W IH,!
674	. . ; W "C0CZZ",!
675	. . ; W $NA(@IHASH@(H2I)),!
676	. . Q ;
677	. D PUSH(IARYRTN,IPRE_"^"_H2I_"^"_@IHASH@(H2I))
678	. ; W @IARYRTN@(0),!
679	Q
680	;
681	XVARS(XVRTN,XVIXML) ; RETURNS AN ARRAY XVRTN OF ALL UNIQUE VARIABLES
682	; DEFINED IN INPUT XML XVIXML BY @@VAR@@
683	; XVRTN AND XVIXML ARE PASSED BY NAME
684	;
685	N XVI,XVTMP,XVT
686	F XVI=1:1:@XVIXML@(0) D ; FOR ALL LINES OF THE XML
687	. S XVT=@XVIXML@(XVI)
688	. I XVT["@@" S XVTMP($P(XVT,"@@",2))=XVI
689	D H2ARY(XVRTN,"XVTMP")
690	Q
691	;
692	DXVARS(DXIN) ;DISPLAY ALL VARIABLES IN A TEMPLATE
693	; IF PARAMETERS ARE NULL, DEFAULTS TO CCR TEMPLATE
694	;
695	N DXUSE,DTMP ; DXUSE IS NAME OF VARIABLE, DTMP IS VARIABLE IF NOT SUPPLIED
696	I DXIN="CCR" D ; NEED TO GO GET CCR TEMPLATE
697	. D LOAD^C0CCCR0("DTMP") ; LOAD CCR TEMPLATE INTO DXTMP
698	. S DXUSE="DTMP" ; DXUSE IS NAME
699	E I DXIN="CCD" D ; NEED TO GO GET CCD TEMPLATE
700	. D LOAD^C0CCCD1("DTMP") ; LOAD CCR TEMPLATE INTO DXTMP
701	. S DXUSE="DTMP" ; DXUSE IS NAME
702	E S DXUSE=DXIN ; IF PASSED THE TEMPLATE TO USE
703	N DVARS ; PUT VARIABLE NAME RESULTS IN ARRAY HERE
704	D XVARS("DVARS",DXUSE) ; PULL OUT VARS
705	D PARY^C0CXPATH("DVARS") ;AND DISPLAY THEM
706	Q
707	;
708	TEST ; Run all the test cases
709	D TESTALL^C0CUNIT("C0CXPAT0")
710	Q
711	;
712	ZTEST(WHICH) ; RUN ONE SET OF TESTS
713	N ZTMP
714	S DEBUG=1
715	D ZLOAD^C0CUNIT("ZTMP","C0CXPAT0")
716	D ZTEST^C0CUNIT(.ZTMP,WHICH)
717	Q
718	;
719	TLIST ; LIST THE TESTS
720	N ZTMP
721	D ZLOAD^C0CUNIT("ZTMP","C0CXPAT0")
722	D TLIST^C0CUNIT(.ZTMP)
723	Q
724	;

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