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Ask your administrator if you think this is wrong. {{htmlmetatags>metatag-description:(ICL George 3 and George 4 source: FLAWMAP866)}} ====== FLAWMAP866 ====== (George Source) **Macros used:** [[george:macro:BACKTRAN|BACKTRAN]], [[george:macro:CHTRAN|CHTRAN]], [[george:macro:CLOSEST|CLOSEST]], [[george:macro:CONVERT|CONVERT]], [[george:macro:FINDSU|FINDSU]], [[george:macro:FREECORE|FREECORE]], [[george:macro:GEOERR|GEOERR]], [[george:macro:INFORM|INFORM]], [[george:macro:LADDP|LADDP]], [[george:macro:LOCKC|LOCKC]], [[george:macro:LTYPE|LTYPE]], [[george:macro:MENDAREA|MENDAREA]], [[george:macro:MFIND|MFIND]], [[george:macro:MFINDSU|MFINDSU]], [[george:macro:MHUNTW|MHUNTW]], [[george:macro:MUSEST|MUSEST]], [[george:macro:OPENST|OPENST]], [[george:macro:OUTBLOCK|OUTBLOCK]], [[george:macro:OUTPARAM|OUTPARAM]], [[george:macro:READST|READST]], [[george:macro:RELST|RELST]], [[george:macro:RELSTX|RELSTX]], [[george:macro:SEGENTRY|SEGENTRY]], [[george:macro:SETNCORE|SETNCORE]], [[george:macro:SETUPCORE|SETUPCORE]], [[george:macro:SUSESTX|SUSESTX]], [[george:macro:TESTREPNOT|TESTREPNOT]], [[george:macro:TRACE|TRACE]], [[george:macro:UNLOCKSU|UNLOCKSU]], [[george:macro:UP|UP]], [[george:macro:UPPLUS|UPPLUS]], [[george:macro:USEST|USEST]] <code - FLAWMAP866.txt>22FL #SEG FLAWMAP70 [NEIL BOULT 22^= #LIS K0FLAWMAP 23DW 8HFLAWMAP 23YG # BACKMAP COMES DOWN TO THIS SEGMENT AFTER IT HAS CREATED A BITMAP 24D6 # OF UNALLOCATED BS BLOCKS. FLAWMAP GOES THROUGH THE FLAW INDEX FOR 24XQ # EACH STORAGE UNIT HOLDING FILESTORE, AND UNSETS THE BIT IN THE 25CB # BITMAP IF IT FINDS A FLAW ENTRY FOR A FILESTORE BLOCK 25X2 # 26BL SEGENTRY K1FLAWMAP,QK1FLAWMAP 26DT ...#SKI JSKI34 26H4 ...( 26K? ... SEGENTRY K2FLAWMAP,QK2FLAWMAP 26MG ...#DEF FLBSUN=FBLCNT 26PP ...#DEF FLBCSN=FLCORE 26RY ...) 26W= # 27*W # DATA AREA IN ACTIVITY BLOCK 27TG # 28*6 #DEF PA=AWORK1 28SQ #DEF SER=AWORK2 29#B # DATA AREA IN /GEXD BLOCK 29S2 # 2=?L #DEF SCYL=EFDC 2=R= #DEF TCYL=ENEWRP 2?=W #DEF SB=ENEWG 2?QG #DEF TB=FNAMER 2#=6 #DEF SEEK=EHOME 2#PQ #DEF MAP=FNAMER+1 2*9B #DEF REP=MAP+1 2*P2 # 2B8L # 2BN= XCON 10000 2C7W SIX7 #777777 2CMG Q3 2D76 #HAL +BSTB+FBSIB,0 2DLQ NCAN GEOERR 1,FLAWCANT 2F6B WERR GEOERR 1,XFLAWMAP 2FL2 WREAD SBX 6 FX1 2G5L READST 2,NOTCOR 2GK= TESTREPNOT OK,WR1 2H4W LDX 1 ECOR(3) 2HJG NOTCOR 2J46 ADX 6 FX1 2JHQ EXIT 6 1 2K3B WR1 TESTREPNOT EXFAIL,WERR 2KH2 ADX 6 FX1 2L2L EXIT 6 0 2LG= XCON10 LDN 5 0 [CONVERT TO DECIMAL S/R 2L^W SMO FX1 2MFG DVD 4 XCON [10000 2M^6 ADN 5 1 [ROUND UP 2NDQ LDN 6 3 [COUNT FOR ZERO SUPPRESSION 2NYB LDX 4 5 2PD2 LDN 5 0 2PXL ADN 2 ACOMMUNE1 2QC= MODE 1 2QWW YCON1 CBD 4 0(2) 2RBG BCHX 2 £ 2RW6 BCT 6 YCON1 2S*Q MODE 0 [DONT SUPPRESS ZERO IF LAST DIGIT 2STB CBD 4 0(2) 2T*2 BCHX 2 £ 2TSL EXIT 0 0 2W#= XCON8 LDN 7 6 [CONVERT TO OCTAL S/R 2WRW ZCON1 STOZ 4 2X?G SLL 45 3 2XR6 DCH 4 0(2) 2Y=Q BCHX 2 £ 2YQB BCT 7 ZCON1 2^=2 EXIT 0 0 2^PL QK1FLAWMAP 329= #SKI K6FLAWMAP>99-99 32NW TRACE FX2,FLAWMAP1 338G SETNCORE GEXDLEN,3,EWDAS,GEXD 33N6 STOZ REP(3) 347Q STOZ PA(2) 34MB STOZ SER(2) 3572 LDX 0 Q3(1) 35LL STO 0 MAP(3) [STORE /FBSIB BLOCK TYPE AND SUBTYPE 366= QA LDX 1 ALFTP [POINTER TO ALFTABLE BLOCK 36KW LDX 4 PA(2) [POINTER TO ENTRY IN BLOCK 375G TXL 4 ALOGLEN(1) 37K6 BCS QB [J. UNLESS END OF ALFTABLE 384Q LDX 4 REP(3) [SAVE FLAW COUNT 38JB LDX 0 SER(2) 3942 BZE 0 QNOC [ANY OPEN SUS 39HL CLOSEST NCOR1 3=3= TESTREPNOT OK,WERR 3=GW NCOR1 UNLOCKSU 5 3?2G RELST 5 3?G6 MHUNTW 3,EWDAS,GEXD 3?^Q QNOC FREECORE 3 3#FB STO 4 EXEC3(2) [)TO BE PASSED ...........(FLAWCOUNT) 3#^2 STOZ AWORK4(2) [)UP 3*DL UP 3*Y= # 3BCW # 3BXG # 3CC6 QB ADX 1 4 [A1(1) NOW POINTS TO CORRECT ENTRY 3CWQ LDCT 0 #600 3DBB ANDX 0 A1(1) 3DW2 BNZ 0 QD [J. IF B0,B1 SET 3F*L LDX 0 A1(1) [ELSE......START WORK 3FT= BRN QC 3G#W # 3GSG QD LDN 0 2 [UPDATE POINTER TO NEXT ENTRY 3H#6 ADS 0 PA(2) 3HRQ BRN QA [J. 3J?B QC SRL 4 1 3JR2 DSA 4 MAP(3) [LOGICAL FILE NR 3K=L #SKI K6FLAWMAP>99-99 3KQ= TRACE MAP(3),LOGICALF 3L9W ANDN 0 #7777 3LPG ADX 0 AFDTP [AFDTP: POINTER TO FDTABLE 3M96 LDX 1 0 [X1 POINTS TO APPROPRIATE FDTABLE ENTRY 3MNQ LDX 5 A1(1) 3N8B SRL 5 18 3NN2 SBN 5 6 3P7L BZE 5 QCA [J. TO QCA UNLESS NEITHER 3PM= SBN 5 7 [FDS OR 3Q6W BZE 5 QCA 3QLG SBN 5 13 [OR EDS 30 3R66 BZE 5 QCA [J IF EDS 30 3RKQ LDX 5 AWORK2(2) [SAVE SERIAL NO. IN CASE LAST 3S5B [FILE DESCRIPION IS FOR DRUM 3SK2 BRN QD [GO FOR NEXT (IF ANY) 3T4L QCA LDX 0 A1+4(1) 3TJ= STO 0 SEEK(3) [STORE BLOCK DEPTH OF LOGICAL FILE 3W3W LDX 0 A1+3(1) 3WHG SBN 0 1 [NO.OF CYLINDERS IN FILE MINUS 1 3X36 STO 0 TCYL(3) 3XGQ LDX 0 A1+1(1) 3Y2B STO 0 SCYL(3) [START CYL. OF FILE PLUS CYL. ADDRESS 3YG2 [OF START OF SU 3Y^L ADS 0 TCYL(3) [END CYL .............. 3^F= [SCYL,TCYL REFER TO CYLINDER NOS RELATIVE TO START OF HARDWARE UNIT 3^YW LDX 0 A1+4(1) 42DG SBN 0 1 [BLOCK DEPTH MINUS 1 42Y6 STO 0 TB(3) 43CQ LDX 0 A1+2(1) 43XB STO 0 SB(3) [START BLOCK OF LOGICAL FILE 44C2 ADS 0 TB(3) [END BLOCK OF LOGICAL FILE 44WL [ 45B= RB LDN 0 1 45TW ADS 0 TCYL(3) [)ADD 1 TO END CYL/BLK FOR 46*G ADS 0 TB(3) [)EASIER COMPARISON LATER 46T6 LDX 5 A1+5(1) [X1 POINTS TO FDTABLE 47#Q SMO FX1 47SB ANDX 5 SIX7 [#777777,X7 =SERIAL NO 48#2 FINDSU 1,5,QD 48RL LDX 0 ASUBASE(1) [DATUM OF S.U. 49?= SBS 0 SCYL(3) [START AND END CYLINDER 49QW SBS 0 TCYL(3) [RELATIVE TO S.U. 4==G # 4=Q6 #SKI K6FLAWMAP>199-199 4?9Q ( 4?PB TRACE 5,FLAWSERL 4#92 TRACE SCYL(3),SCYL 4#NL TRACE TCYL(3),TCYL 4*8= TRACE SB(3),SB 4*MW TRACE TB(3),TB 4B7G ) 4BM6 LDX 4 HBLOCK(1) [SAVE BLOCKS/CYL 4C6Q LDX 7 HFLAW(1) [SAVE WORD ADDRESS OF FIRST FLAW CELL 4CLB BZE 7 QD [J. IF NO FLAW CELLS ON THIS SU 4D62 LDX 0 SER(2) 4DKL BZE 0 ZX [J. IF NO PREVIOUS SU 4F5= STO 5 6 [SAVE CURRENT SERIAL NR. 4FJW TXU 0 5 [X0:PREVIOUS SU SERIAL NR,X5 CURRENT 4G4G BCC Z [J IF CURRENT UNIT SAME AS PREVIOUS 4GJ6 LDX 5 0 4H3Q CLOSEST NCOOR 4HHB TESTREPNOT OK,WERR 4J32 MHUNTW 3,EWDAS,GEXD 4JGL NCOOR UNLOCKSU 5 4K2= RELST 5 [RELEASE OLD UNIT 4KFW LDX 5 6 [RESTORE SERIAL NR OF SU CURRENTLY REQUIRED 4K^G #SKI ENTWINE<1$1 4LF6 ZX USEST 5,NOT 4LYQ #SKI ENTWINE 4MDB ZX USEST 5,NOT,,WERR,WERR 4MY2 XB MHUNTW 3,EWDAS,GEXD 4NCL OPENST 5 4NX= Z LDX 2 7 4PBW #SKI K6FLAWMAP>199-199 4PWG TRACE 7,FLAWADDR 4QB6 XC CALL 6 WREAD [WORD ADDRESS IN X2.GET CORE POINTER IN X1 4QTQ BRN XTRAN [TRANSFER FAIL 4R*B LDX 2 0(1) [TRANSFER OK,SAVE WD ADDRESS OF 4RT2 [NEXT FLAW CELL IN X2,IF ANY 4S#L STO 2 FNAMER+3(3) [SAVE NEXT FLAW INDEX CELL ADDR 4SS= ADN 1 1 4T?W YLOOP ADN 1 1 4TRG LDX 7 0(1) [NEXT FLAW BLK ADDRESS IN THIS FLAW CELL 4W?6 BNG 7 NEWFI [BRN TO NEXT FLAW CELL 4WQQ BZE 7 YLOOP [ENTRY NOT USED;UPDATE POINTER 4X=B DVS 6 4 [X7=CYL NO;X6=BLK NO 4XQ2 #SKI K6FLAWMAP>199-199 4Y9L ( 4YP= TRACE 7,CYLNO 4^8W TRACE 6,BLKNO 4^NG ) 5286 LDX 0 6 52MQ LDX 6 7 537B LDX 7 0 [SWITCH X6,X7 53M2 TXL 6 TCYL(3) 546L BCC YLOOP [J. IF CYL TOO BIG 54L= TXL 7 TB(3) [TO NEXT ENTRY.ALSO IF BLK TOO BIG 555W BCC YLOOP 55KG SBX 6 SCYL(3) 5656 SBX 7 SB(3) 56JQ BNG 6 YLOOP [J. IF BLK OR CYL TOO SMALL 574B BNG 7 YLOOP [TO NEXT ENTRY 57J2 MPA 6 SEEK(3) [X6= NO OF HARDWARE BLKS IN LOGICAL FILE 583L SRL 67 2 [NO OF FILESTORE BLKS IN LF 58H= LDN 0 24 592W DVD 6 0 59GG [ EVERY BIT IS A MARKER FOR A FILESTORE BLK. X7 IS WORD ADDR 5=26 [ AND X6 IS BIT ADDR OF BIT TO BE UNSET IN /FBSIB BLOCK 5=FQ #SKI K6FLAWMAP>99-99 5=^B ( 5?F2 TRACE 7,WORDBIT 5?YL TRACE 6, BITBIT 5#D= ) 5#XW MFIND 2,MAP(3) 5*CG TXL 7 ALOGLEN(2) 5*X6 BCS QJA 5BBQ GEOERR 1,FMAPLLEN 5BWB QJA NGNC 0 1 [UNSET B0 OF X0. B1-23=#37777777 5CB2 SMO 6 5CTL SRC 0 0 [SHIFT UNSET BIT TO RIGHT PLACE 5D*= #SKI K6FLAWMAP>199-199 5DSW TRACE 0,BITWORD 5F#G ADX 2 7 [ADJUST POINTER TO RIGHT WORD 5FS6 ANDS 0 A1(2) [UNSET CORRECT BIT FOR FLAWED F/STORE BLK 5G?Q LDN 0 1 5GRB ADS 0 REP(3) [UPDATE FLAW COUNT 5H?2 BRN YLOOP [GO TO NEXT FLAW ENTRY 5HQL NEWFI LDX 2 FNAMER+3(3) [J IF MORE FLAW INDEX CAELLS ON SU 5J== BNZ 2 XC 5JPW LDX 2 FX2 [ELSE...... 5K9G STO 5 SER(2) [STORE SERIAL NR OF SU JUST SEARCHED 5KP6 #SKI K6FLAWMAP>99-99 5L8Q TRACE SER(2),SERIALNR 5LNB BRN QD [J TO NEXT LOGICAL FILE ENTRY IN ALFTABLE 5M82 #SKI ENTWINE<1$1 5MML NOT MUSEST 5,NCAN,NCAN 5N7= #SKI ENTWINE 5NLW NOT MUSEST 5,NCAN,NCAN,,WERR 5P6G BRN XB 5PL6 XTRAN LDX 0 MAP(3) 5Q5Q DSA 0 4 [LFN IN X4 5QKB LDX 2 FX2 5R52 STO 5 ACOMMUNE2(2) [SERIAL NO 5RJL STO 5 SER(2) 5S4= CALL 0 XCON10 [CONVERT LFN TO DECIMAL RESULT IN ACOM1 5SHW LDX 5 0(2) [ACOM2 5T3G SLL 5 6 5TH6 [ B0 TO B17 = SERIAL NO 5W2Q CALL 0 XCON8 [CONVERT SERISL NO TO OCTAL 5WGB LDX 2 FX2 [RESULT IN ACOM2 TO ACOM3.1 5X22 LDN 7 5 [FOR OUTBLOCK. NO OF WORDS 5XFL OUTBLOCK 7 5X^= LDN 7 4 [FOR OUTPARAM5CH. COUNT) 5YDW OUTPARAM 7,ACOMMUNE1 5YYG LDN 7 6 5^D6 OUTPARAM 7,ACOMMUNE2 5^XQ INFORM 1,FLAWNOT,1 [OUTPUT MESSAGE 'FLAWMAPPING OF LFN %A 62CB [ ON SU #%B NOT COMPLETED ' 62X2 LDX 5 SER(2) 63BL BRN QD [J. FOR NEXT LF 63BQ ...# 63BW ...# 63C2 ...#SKI JSKI34 63C6 ...( 63C= ...QK2FLAWMAP 63CB ... LTYPE ACOMMUNE6(2),0 [ DEVICE TYPE IN B18-23 63CG ... SBN 0 6 63CL ... BZE 0 UDAS [ J IF EDS 8 63CQ ... SBN 0 7 63CW ... BZE 0 UDAS [ J IF FDS 63D2 ... SBN 0 #15 63D6 ... BNZ 0 XUPL [ J IF NOT EDS30/60 63D= ...UDAS LADDP ACOMMUNE6(2),3 [ PTR TO APIA IN X3 63D? ... LDX 0 BSUNIT5(3) 63D# ... BZE 0 XUPL 63D* ... FINDSU 1,BSUNIT5(3),XUPL 63DB ... LDCT 0 #100 63DC ... ANDX 0 ASMARK(1) [IN USE BY S-TRUSTED 63DD ... BNZ 0 XUPL [J IF SO 63DF ...#UNS IPBD 63DG ... SUSESTX BSUNIT5(3),XUPL [ CHECK FOR AND KEEP SU ONLINE 63DH ...#UNS IPBD 63DJ ...#SKI 63DK ... TSUSESTX BSUNIT5(3),XUPL [ CHECK FOR AND KEEP SU ONLINE 63DL ... LDX 2 FX2 63DM ... LDX 7 HBLOCK(1) [ BLOCKS/CYL FROM ASTUC 63DQ ... MPY 7 ACOMMUNE7(2) [ ABS. BLKNUM OF START OF CYLINDER 63DW ... ADX 0 ACOMMUNE8(2) [ ABS. BLKNUM OF START OF TRANSFER 63F2 ... LDX 6 ACOMMUNE9(2) [ LENGTH OF TRANSFER IN WORDS 63F6 ... SRL 67 7 [ X6 HOLDS NO. OF BLKS IN TRANSFER 63F= ... BNZ 7 NDBLK [ X7 HOLDS NO. OF REMAINING WORDS 63FB ... SBN 6 1 63FG ...NDBLK ADX 6 0 [ BLKNUM OF END OF TRANSFER 63FL ... LDX 7 0 [ BLKNUM OF START OF TRANSFER 63FQ ... LDN 4 FLADDR [ LENGTH OF EWDAS/FLAWB BLOCK 63FW ... LDX 5 HSTUN(1) 63G2 ... ANDX 5 BSB18 [ PRESERVE CSN 63G6 ... CALL 0 SETFLAWB [ GET A EWDAS/FLAWB AND LOCK IT 63G= ... LDX 0 ABSUN(1) 63GB ... STO 0 FLBSUN(3) [ PRESERVE BSUN FOR BACKTRAN 63GG ... STO 5 FLBCSN(3) [ PRESERVE CSN 63GL ... LDN 0 0 63GQ ... STO 0 FLBS1(3) [ MODE FOR BACKTRAN 63GW ...XNDX LDX 5 FLSTART(3) [ WORD ADDRESS OF FLAW INDEX 63H2 ... DVS 4 FLBS2(3) [ CALCULATE BLOCK ADDRESS 63H6 ... TXU 5 7 [ COMPARE FLAW INDEX ADDRESS 63H= ... BCC XRET [ J IF SAME AS PERIPHERAL INCIDENT 63HB ... LDX 1 5 [ ADDRESS TO BE CONVERTED 63HG ... CONVERT FLBS4(3),FLTYPE(3),FLBASE(3),FLDEP(3) 63HL ...#DEF P=BSET+BONL+FLAW 63HQ ... BACKTRAN FLBS1(3),P,FLBS2(3),,FLBSUN(3),FLBS4(3),FLBS3(3) 63HW ... CHTRAN FLTYPE(3),XRET,XRET [ CHECK THE TRANSFER 63J2 ... TXU 5 FLBUFF(3) [ CHECK CORRECT BLOCK 63J6 ... BCS XRET [ J IF NOT 63J= ... LDX 1 FLBUFF+1(3) 63JB ... BZE 1 SUMOK [ J IF NO CHECKSUM 63JG ... LDN 1 FLBUFF(3) 63JL ... SUM 0 128 [ CHECKSUM THE BLOCK 63JQ ... BNZ 0 XRET [ J IF CHECKSUM INCORRECT 63JW ...SUMOK NGN 0 1 63K2 ... ADX 0 4 [ MODIFIER TO START OF FLAW INDEX 63K6 ...SCH ADN 0 1 [ START OF SEARCH LOOP 63K= ... SMO 0 63KB ... LDX 1 FLBUFF+2(3) [ NEXT ENTRY IN FLAW INDEX 63KG ... BZE 1 SCH [ BLOCK IN FLAW AREA UNUSED 63KL ... BNG 1 XNEXT [ END OF INDEX -GO FOR NEXT 63KQ ... TXL 1 7 [ TEST BLKNUM < LOWER BOUND 63KW ... BCS XNO 63L2 ... TXL 6 1 [ TEST BLKNUM > UPPER BOUND 63L6 ... BCC XFND [ J IF WITHIN RANGE 63L= ...XNO TXL 0 FLBS2(3) [ TEST FOR END OF INDEX 63LB ... BCS SCH [ CONTINUE SEARCH IF NOT 63LG ...XNEXT SMO 4 63LL ... LDX 0 FLBUFF(3) [ WORD ADDRESS OF NEXT FLAW INDEX 63LQ ... STO 0 FLSTART(3) [ WORD ADDRESS OF NEXT FLAW INDEX 63LW ... BNZ 0 XNDX [ GO FOR NEXT FLAW INDEX 63M2 ...XRET CALL 7 TIDY 63M6 ...XUPL UPPLUS 1 63M= ...XFND CALL 7 TIDY 63MB ... UP 63MG ...# 63ML ...# SUBROUTINE TO TIDY UP BY FREECOREING THE FLAWB AND RELEASING THE 63MQ ...# STORAGE UNIT. (FREECORE IMPLICITLY UNLOCKS A BLOCK) 63MW ...# 63N2 ...TIDY SBX 7 FX1 63N6 ... LDX 5 FLBCSN(3) 63N= ... FREECORE 3 63N? ...#UNS IPBD 63N# ... RELSTX 5,TID1 63N* ...#UNS IPBD 63NB ...#SKI 63NC ... TRELSTX 5,TID1 63NG ...TID1 ADX 7 FX1 63NL ... EXIT 7 0 63NQ ...# 63NW ...# SUBROUTINE TO GET A EWDAS/FLAWB, LOCK IT, AND FILL IN VARIOUS 63P2 ...# DETAILS OBTAINED FROM THE ASTUC. 63P6 ...# ON ENTRY X4= REQUIRED LENGTH OF THE FLAWB 63P= ...# X5= CSN OF FAILING DISC 63PB ...# 63PG ...# ON EXIT X3 POINTS TO THE FLAWB 63PL ...# X1 POINTS TO THE ASTUC 63PQ ...# X2=FX2 63PW ...# 63Q2 ...SETFLAWB 63Q6 ... SBX 0 FX1 63Q= ... STO 0 AWORK1(2) [ PRESERVE LINK 63QB ... SETUPCORE 4,3,EWDAS,FLAWB,1 [ GET THE FLAWB 63QG ... LOCKC 3,PTFLB [ LONGLOCK IT 63QJ ... MHUNTW 3,EWDAS,FLAWB 63QL ... MFINDSU 1,5 [ FIND THE ASTUC 63QQ ... LDX 0 HTYPE(1) 63QW ... STO 0 FLTYPE(3) [ TYPE/SUBTYPE TO FLAWB 63R2 ... LDX 0 ASUBASE(1) 63R6 ... STO 0 FLBASE(3) [ START CYL. OF SU. 63R= ... LDX 0 HBLOCK(1) 63RB ... STO 0 FLDEP(3) [ BLOCK/CYL. ON SU. 63RG ... LDX 0 HFLAW(1) 63RL ... STO 0 FLSTART(3) [ POINTER TO FIRST FLAW INDEX 63RQ ... LDN 0 128 63RW ... STO 0 FLBS2(3) [ LENGTH FOR BACKTRAN 63S2 ... LDN 0 FLBUFF(3) 63S6 ... STO 0 FLBS3(3) [ BUFFER ADDRESS FOR BACKTRAN 63S= ... LDX 0 AWORK1(2) 63SB ... ADX 0 FX1 63SG ... EXIT 0 0 63SL ...# 63SQ ...# 63SW ...PTFLB 63T2 ... MHUNTW 2,EWDAS,FLAWB 63T6 ... EXIT 1 0 63T= ...# 63TB ...# 63TG ...) 63W= MENDAREA 50,K99FLAWMAP 64*W #END ^^^^ ...77515514000100000000 </code> Last modified: 17/01/2024 11:55by 127.0.0.1 Log In