1 | MAGJEX1B ;WIRMFO/JHC Rad. Workstation RPC calls ; 29 Jul 2003 9:58 AM
|
---|
2 | ;;3.0;IMAGING;**16,22,18,65**;Jul 27, 2006;Build 28
|
---|
3 | ;;Per VHA Directive 2004-038, this routine should not be modified.
|
---|
4 | ;; +---------------------------------------------------------------+
|
---|
5 | ;; | Property of the US Government. |
|
---|
6 | ;; | No permission to copy or redistribute this software is given. |
|
---|
7 | ;; | Use of unreleased versions of this software requires the user |
|
---|
8 | ;; | to execute a written test agreement with the VistA Imaging |
|
---|
9 | ;; | Development Office of the Department of Veterans Affairs, |
|
---|
10 | ;; | telephone (301) 734-0100. |
|
---|
11 | ;; | |
|
---|
12 | ;; | The Food and Drug Administration classifies this software as |
|
---|
13 | ;; | a medical device. As such, it may not be changed in any way. |
|
---|
14 | ;; | Modifications to this software may result in an adulterated |
|
---|
15 | ;; | medical device under 21CFR820, the use of which is considered |
|
---|
16 | ;; | to be a violation of US Federal Statutes. |
|
---|
17 | ;; +---------------------------------------------------------------+
|
---|
18 | ;;
|
---|
19 | Q
|
---|
20 | ; Subroutines for fetch exam images, exam lock/reserve, remove dangling locks
|
---|
21 | ;
|
---|
22 | IMGLOOP ; get data for all the images
|
---|
23 | ; This subroutine is called from MAGJEX1
|
---|
24 | ; MAGGRY holds $NA reference to ^TMP where Broker return message is assembled;
|
---|
25 | ; all references to MAGGRY use subscript indirection
|
---|
26 | N DFN,IMGREC,P18ALTP
|
---|
27 | I '$D(MAGJOB("ALTPATH")) S MAGJOB("ALTPATH")=0 ; facilitates testing
|
---|
28 | F IMAG=MAGSTRT:1:MAGEND S MAGIEN=$P(MAGS(IMAG),U,4) D
|
---|
29 | . S DFN=$P(MAGS(IMAG),U,8)
|
---|
30 | . I DFN=RADFN S MIXEDUP(RADFN)="" ;ok
|
---|
31 | . E S:'DFN DFN=0 S MIXEDUP=MIXEDUP+2,MIXEDUP(DFN)="" ; database corruption
|
---|
32 | . S MDL=$P(MAGS(IMAG),U,3)
|
---|
33 | . I MDL="DR" S MDL="CR" ; for now, hard code cx of non-standard code
|
---|
34 | . I $G(SERBRK),(SERLBL]"") D ; mark Begin of series
|
---|
35 | . . S CT=CT+1,@MAGGRY@(CT+STARTNOD)=SERLBL,SERLBL=""
|
---|
36 | . S MAGXX=MAGIEN D
|
---|
37 | . . I 'USETGA,($P(MAGS(IMAG),U,2)["BIG") D BIG^MAGFILEB Q
|
---|
38 | . . E D VST^MAGFILEB
|
---|
39 | . I MAGJOB("ALTPATH") S X=$P(MAGS(IMAG),U,6),P18ALTP="" I X]"" D
|
---|
40 | . . F I=1:1:$L(X,",") S T=$P(X,",",I) I T S CURPATHS(T)="" I 'MAGJOB("P32"),$D(MAGJOB("LOC",T)) S P18ALTP=P18ALTP_$S(P18ALTP="":"",1:",")_T
|
---|
41 | . S IMGREC="B2^"_MAGIEN_U_MAGFILE2
|
---|
42 | . I 'MAGJOB("P32") D
|
---|
43 | . . S T="",X=$P(MAGS(IMAG),U,11) I X]"" F I="K","I","U" I X[I,$D(PSIND(I)) S T=T_$S(T="":"",1:",")_I ; PS_Indicators
|
---|
44 | . . S IMGREC=IMGREC_U_T_U_$S(MAGJOB("ALTPATH"):P18ALTP,1:"") ; AltPaths for this img
|
---|
45 | . . I '(PROCDT]"") D ; Img Process Date
|
---|
46 | . . . S X=$P(MAGS(IMAG),U,12) I X]"" S T=$S($E(X)=3:20,$E(X)=2:19,1:"") I T S PROCDT=T_$E(X,2,7)
|
---|
47 | . . I '(ACQSITE]"") D ; Acq Site
|
---|
48 | . . . S X=$P(MAGS(IMAG),U,13) I X]"" S ACQSITE=X
|
---|
49 | . S CT=CT+1,@MAGGRY@(CT+STARTNOD)=IMGREC
|
---|
50 | . I MODALITY="" D
|
---|
51 | . . I 'MAGJOB("P32") S MODALITY=MDL Q
|
---|
52 | . . N T S T=$P("1dummy1^CT^CR^MR^US^AS^CD^CS^DG^EC^FA^LP^MA^PT^ST^XA^NM^OT^BI^CP^DD^DM^ES^FS^LS^MS^RG^TG^RF^RTIMAGE^RTSTRUCT^HC^RTDOSE^RTPLAN^RTRECORD^DX^MG^IO^PX",U_MDL_U,1)
|
---|
53 | . . S MODALITY=$L(T,U)
|
---|
54 | . . I MODALITY>38 S MODALITY=9999 ; 38=TOTAL # modalities defined; else 9999
|
---|
55 | . . I STKLAY S OPENCNT=0 ; no limit on WS for # of exams open in StackVwr
|
---|
56 | ;
|
---|
57 | I 'MAGJOB("ALTPATH") S ALTPATH=-1
|
---|
58 | E D
|
---|
59 | . S T=0 F S T=$O(CURPATHS(T)) Q:'T I $D(MAGJOB("LOC",T)) Q
|
---|
60 | . S ALTPATH=$S('T:0,1:1)
|
---|
61 | . I ALTPATH=$P(MAGJOB("ALTPATH"),U,2) S ALTPATH=-1
|
---|
62 | . E S $P(MAGJOB("ALTPATH"),U,2)=ALTPATH
|
---|
63 | IMGLOOPZ Q
|
---|
64 | ;
|
---|
65 | ;
|
---|
66 | LOCKIN(RARPT,LOCKLEV,MYLOCK,LOCKCHK) ; init lock-related info B4 do any lock actions
|
---|
67 | ; called from UTL3 & EX1A
|
---|
68 | ; if LOCKCHK="STATUS", only return current status
|
---|
69 | ; Input RARPT (required) and LOCKCHK (opt)
|
---|
70 | ; Output: LOCKLEV & MYLOCK array; successful LOCKS left intact, unless LOCKCHK="STATUS"
|
---|
71 | ; M LOCKS det. what Actions are possible by calling program modules
|
---|
72 | ; MYLOCK(1/2)= Lock_is_Mine ^ DUZ ^ $J ^ User Name ^ User Init ^ Case #
|
---|
73 | ; LOCKLEV=0:3--is/not 1-Lockable/2-Reservable/3-Both to user
|
---|
74 | ; MYLOCK=0:3--is/not already 1-Locked/2-Reserved/3-Both by user
|
---|
75 | ;
|
---|
76 | N CKMINE,CASENO,XX,XY,ILOCK
|
---|
77 | S LOCKCHK=$G(LOCKCHK)="STATUS"
|
---|
78 | S LOCKLEV=0 K MYLOCK S MYLOCK=0
|
---|
79 | L +^XTMP("MAGJ","LOCK",RARPT):0
|
---|
80 | I S LOCKLEV=3
|
---|
81 | L +^XTMP("MAGJ","LOCK",RARPT,1):0 ; "1" for Exam "LOCK"
|
---|
82 | I S:'LOCKLEV LOCKLEV=1
|
---|
83 | L +^XTMP("MAGJ","LOCK",RARPT,2):0 ; "2" for Exam "RESERVE"
|
---|
84 | I S LOCKLEV=$S('LOCKLEV:2,1:3)
|
---|
85 | L -^XTMP("MAGJ","LOCK",RARPT)
|
---|
86 | S CKMINE=DUZ_U_$J
|
---|
87 | F ILOCK=1,2 D
|
---|
88 | . S XX="",XY="",CASENO=$G(^XTMP("MAGJ","LOCK",RARPT,ILOCK))
|
---|
89 | . I CASENO]"" S XX=$G(^XTMP("MAGJ","LOCK",RARPT,ILOCK,CASENO)),XY=$P(XX,"|",2),XX=$P(XX,"|")
|
---|
90 | . S X=$P(XX,U,1,2),MYLOCK(ILOCK)=(X=CKMINE)
|
---|
91 | . S X=$P(XX,U)_U_$P(XX,U,2)_U_$P(XX,U,4)_U_$P(XX,U,5)_U_CASENO_U_"|"_XY
|
---|
92 | . S MYLOCK(ILOCK)=MYLOCK(ILOCK)_U_X
|
---|
93 | . I MYLOCK(ILOCK) S MYLOCK=MYLOCK+ILOCK
|
---|
94 | I LOCKCHK,LOCKLEV D ; reset locks for Lock check
|
---|
95 | . I LOCKLEV=1!(LOCKLEV=3) L -^XTMP("MAGJ","LOCK",RARPT,1)
|
---|
96 | . I LOCKLEV=2!(LOCKLEV=3) L -^XTMP("MAGJ","LOCK",RARPT,2)
|
---|
97 | Q
|
---|
98 | ;
|
---|
99 | REMLOCK ; Remove dangling exam locks; this is run only at Logon
|
---|
100 | ; If a recorded lock is found that a new job (logon) can M-Lock
|
---|
101 | ; then that is a dangling lock that must be removed
|
---|
102 | N RARPT,TS,LOCKLEV,MYLOCK,ACTION,DAYCASE,ILOCK,RESULT
|
---|
103 | S RARPT=""
|
---|
104 | F S RARPT=$O(^XTMP("MAGJ","LOCK",RARPT)) Q:'RARPT D ; loop thru recorded locks
|
---|
105 | . D LOCKIN(RARPT,.LOCKLEV,.MYLOCK)
|
---|
106 | . I 'LOCKLEV Q ;unable to lock--is ok
|
---|
107 | . S ACTION="",DAYCASE=""
|
---|
108 | . F ILOCK=1,2 I $D(^XTMP("MAGJ","LOCK",RARPT,ILOCK)) S XX=^(ILOCK) D
|
---|
109 | . . I DAYCASE="" S DAYCASE=$P(XX,U)
|
---|
110 | . . I ILOCK=1,(LOCKLEV=1!(LOCKLEV=3)) S $P(ACTION,U,1)=1
|
---|
111 | . . I ILOCK=2,(LOCKLEV=2!(LOCKLEV=3)) S $P(ACTION,U,2)=1
|
---|
112 | . I 'ACTION,'+$P(ACTION,U,2),(DAYCASE="") D Q ; should never occur, but
|
---|
113 | . . I LOCKLEV=1!(LOCKLEV=3) L -^XTMP("MAGJ","LOCK",RARPT,1)
|
---|
114 | . . I LOCKLEV=2!(LOCKLEV=3) L -^XTMP("MAGJ","LOCK",RARPT,2)
|
---|
115 | . D LOCKOUT^MAGJEX1A(RARPT,DAYCASE,.LOCKLEV,.MYLOCK,ACTION,.RESULT) ; 1st, lock to me
|
---|
116 | . K LOCKLEV,MYLOCK D LOCKACT^MAGJEX1A(RARPT,DAYCASE,101,.RESULT) ; then, clear the lock
|
---|
117 | S TS="" F I=2,0 S %H=$H+I D YMD^%DTC S TS=TS_$S(TS="":"",1:U)_X
|
---|
118 | S ^XTMP("MAGJ",0)=TS_U_"VistaRad Locks"
|
---|
119 | Q
|
---|
120 | ;
|
---|
121 | ;
|
---|
122 | END ;
|
---|