| 1 | LRTT5P1 ;DALOI/FHS-LAB URGENCY TURNAROUND TIMES PROCESSOR ;12/3/1997
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| 2 | ;;5.2;LAB SERVICE;**153,221,263,274,358**;Sep 27, 1994
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| 3 | ONE ; from LRTT5
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| 4 | ; return for reg & irreg: # tests, total time, bad turnaround time
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| 5 | ; input:
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| 6 | ; ^TMP("LRTT5",$J,"TESTS",tests)=test names
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| 7 | ; LRPQ("URGENCY",urgencies)=urgency names
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| 8 | ; LRSDT, LREDT, LRPDET
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| 9 | ; output:
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| 10 | ; ^TMP("LR",$J,"REG")=#tests^total time
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| 11 | ; ^TMP("LR",$J,"REG",TAT,#)=acc^test^in^out
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| 12 | ; ^TMP("LR",$J,"REGT",test)=#tests^total time
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| 13 | ; ^TMP("LR",$J,"IRREG")=#tests^total time
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| 14 | ; ^TMP("LR",$J,"IRREG",TAT,#)=acc^test^in^out
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| 15 | ; ^TMP("LR",$J,"IRREGT",test)=#tests^total time
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| 16 | ; ^TMP("LR",$J,"BAD",TAT,#)=acc^test^in^out
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| 17 | ;
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| 18 | START ; go thru tests
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| 19 | S LRSDT=$P(LRSDT,"."),LREDT=$P(LREDT,".")
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| 20 | I LRSDT>LREDT S X=LRSDT,LRSDT=LREDT,LREDT=X
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| 21 | S LRPSDT=LRSDT,LRPEDT=LREDT
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| 22 | S LRTEST=0 F S LRTEST=$O(^TMP("LRTT5",$J,"TESTS",LRTEST)) Q:LRTEST<1 D
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| 23 | .; get acc areas for tests
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| 24 | . S LRPN=0 F S LRPN=$O(^LAB(60,LRTEST,8,LRPN)) Q:LRPN<1 I $D(^(LRPN,0)) S LRAA=+$P(^(0),U,2) I $D(^LRO(68,LRAA,0)) S LRAA(LRAA)=""
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| 25 | ; go thru valid accession areas, get accession type - daily, yearly, etc
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| 26 | S (LRPN,LRAA)=0 F S LRAA=$O(LRAA(LRAA)) Q:LRAA<1 I $D(^LRO(68,LRAA,0)) S LRAAT=$P(^(0),U,3) D
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| 27 | . ; go thru accession dates, start using appropriate acc type
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| 28 | . S LRSDT=LRPSDT,LREDT=$P(LRPEDT,".")_".24"
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| 29 | . S LRAD=$S(LRAAT="D":LRSDT,LRAAT="M":LRSDT\100*100,1:LRSDT\10000*10000)-.000001
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| 30 | . F S LRAD=$O(^LRO(68,LRAA,1,LRAD)) Q:LRAD<1!(LRAD>(LREDT)) D
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| 31 | . . ; go thru accession #s
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| 32 | . . S LRAN=0 F S LRAN=$O(^LRO(68,LRAA,1,LRAD,1,LRAN)) Q:LRAN<1 S LRDPF=$P($G(^(LRAN,0)),U,2) D
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| 33 | . . . Q:$S('LRDPF:1,LRDPF=2:0,LRDPF=67:0,1:1)
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| 34 | . . . ; check lab arrival time, must be >= begin time and <= end time
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| 35 | . . . Q:'$D(^LRO(68,LRAA,1,LRAD,1,LRAN,3)) S LRPLRRX1=$P(^(3),U,3) Q:LRPLRRX1<LRSDT Q:LRPLRRX1>(LREDT)
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| 36 | . . . I $G(^LRO(68,LRAA,1,LRAD,1,LRAN,.4)),$O(LRLLOC(0)),'$D(LRLLOC(+$G(^(.4)))) Q
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| 37 | . . . ; go thru tests on accession, if valid urgency get date reported
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| 38 | . . . S LRTEST=0 F S LRTEST=$O(^TMP("LRTT5",$J,"TESTS",LRTEST)) Q:LRTEST<1 I $D(^LRO(68,LRAA,1,LRAD,1,LRAN,4,LRTEST,0)),$D(LRPQ("URGENCY",+$P(^(0),U,2))),$P(^(0),U,8)'="" S LRPLRRX2=+$P(^(0),U,5) D
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| 39 | . . . . Q:'$P(^LRO(68,LRAA,1,LRAD,1,LRAN,4,LRTEST,0),U,4) ;Must be verified and have suffix code.
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| 40 | . . . . ; increment sequence number
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| 41 | . . . . S LRPN=LRPN+1
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| 42 | . . . . ; no report date, set to zero TAT save as bad and quit
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| 43 | . . . . I 'LRPLRRX2 S LRPLRRX2=LRPLRRX1 D SAVE("BAD") Q
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| 44 | . . . . ; if negative times save as bad and quit
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| 45 | . . . . I LRPLRRX1>LRPLRRX2 D SAVE("BAD") Q
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| 46 | . . . . ; if time is not regular (7am-5pm) then save as irregular and quit
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| 47 | . . . . S LRPRX1T="."_$P(LRPLRRX1,".",2) I LRPRX1T<.07!(LRPRX1T>.17) D SAVE("IRREG") Q
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| 48 | . . . . ; if Sunday or Saturday save as irregular and quit
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| 49 | . . . . S (LRPRX1D,X)=LRPLRRX1\1 D H^%DTC I %Y=0!(%Y=6) D SAVE("IRREG") Q
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| 50 | . . . . ; if holiday save as irregular and quit
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| 51 | . . . . I $D(^HOLIDAY("B",LRPRX1D)) D SAVE("IRREG") Q
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| 52 | . . . . ; otherwise save as regular and quit
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| 53 | . . . . D SAVE("REG")
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| 54 | ; go thru reg & irreg
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| 55 | F LRPTYPE="REG","IRREG" D
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| 56 | . ; go thru TATs
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| 57 | . S (LRPNN,LRPNT)=0,LRPDIFF="" F S LRPDIFF=$O(^TMP("LR",$J,LRPTYPE,LRPDIFF)) Q:LRPDIFF="" D
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| 58 | . . ; go thru each reg & irreg TAT, count # and total
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| 59 | . . S LRPN="" F S LRPN=$O(^TMP("LR",$J,LRPTYPE,LRPDIFF,LRPN)) Q:LRPN="" S LRPNN=LRPNN+1,LRPNT=LRPNT+LRPDIFF
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| 60 | . ; store reg data
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| 61 | . S ^TMP("LR",$J,LRPTYPE)=LRPNN_U_LRPNT
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| 62 | CLEAN K %Y,LRAA,LRAAT,LRAN,LRPDIFF,LRAD,LRPLRRX1,LRPLRRX2,LRPN,LRPNN,LRPNT,LRPRX1D,LRPRX1T,LRTEST,LRTESTN,LRPTYPE,X
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| 63 | Q
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| 64 | SAVE(LRPUTYPE) ; collect reg, irreg, and bad
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| 65 | N LRUID
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| 66 | S LRUID=$G(^LRO(68,LRAA,1,LRAD,1,LRAN,.3))
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| 67 | S LRPDIFF=$$DIFF(LRPLRRX2,LRPLRRX1),LRTESTN=$P(^LAB(60,LRTEST,0),U)
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| 68 | I LRPUTYPE="BAD"!('$L(LRUID)) S ^TMP("LR",$J,"BAD",-LRPDIFF,LRPN)=$G(^LRO(68,LRAA,1,LRAD,1,LRAN,.2))_U_LRTESTN_U_LRPLRRX1_U_$S(LRPLRRX2=LRPLRRX1:"",1:LRPLRRX2) Q
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| 69 | Q:$D(^TMP("LR",$J,LRPUTYPE,+LRPDIFF,LRTESTN_LRUID))#2
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| 70 | S ^TMP("LR",$J,LRPUTYPE,+LRPDIFF,LRTESTN_LRUID)=$G(^LRO(68,LRAA,1,LRAD,1,LRAN,.2))_U_LRTESTN_U_LRPLRRX1_U_LRPLRRX2
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| 71 | S $P(^(LRTESTN),U)=$P($G(^TMP("LR",$J,LRPUTYPE_"T",LRTESTN)),U)+1,$P(^(LRTESTN),U,2)=$P($G(^(LRTESTN)),U,2)+LRPDIFF
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| 72 | Q
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| 73 | DIFF(LRPUT1,LRPUT2) ; $$(time1,time2) -> difference in min
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| 74 | N LRPUDIFF,X1,X2,LRPUX1M,LRPUX2M,LRPUX1H,LRPUX2H,LRPUX1TH,LRPUX2TH,LRPUX1TM,LRPUX2TM,LRPUXMI
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| 75 | S X1=$P(LRPUT1,"."),X2=$P(LRPUT2,"."),LRPUX1TH=$E(LRPUT1,9),LRPUX2TH=$E(LRPUT2,9),LRPUX1H=$E(LRPUT1,10),LRPUX2H=$E(LRPUT2,10),LRPUX1TM=$E(LRPUT1,11),LRPUX2TM=$E(LRPUT2,11),LRPUX1M=$E(LRPUT1,12),LRPUX2M=$E(LRPUT2,12)
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| 76 | D ^%DTC S LRPUXMI=X*1440+(LRPUX1M+(LRPUX1TM*10)+(LRPUX1TH*600)+(LRPUX1H*60))-(LRPUX2M+(LRPUX2TM*10)+(LRPUX2TH*600)+(LRPUX2H*60)),LRPUDIFF=LRPUXMI S:LRPUXMI<0 LRPUDIFF=-LRPUXMI
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| 77 | Q LRPUDIFF
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