SUBROUTINE GENT (FUNC) INTEGER ADDR, ADRFLG, CUROP, NEXTOP, CFLAG INTEGER PI, XBBL, XA, XF, XZERO, DPVFLG INTEGER LC, LCI, LODLCI, LODLCV, LDLCVO, MAXLCV INTEGER NEXT, NUMBER, I, IOTYPE INTEGER J, K, L, LABNLX, M, N INTEGER PSYMB, SYMBOL, TOP, VALFLG, QVALUE INTEGER OPTOPX, OPNXTX, TOPX, NEXTX INTEGER DUMMY, OVCHN, PEEKS INTEGER LO, CI, CO, LOGICF, LOCSUP INTEGER VAREF, INPUTJ, LCTS, CRUCNT, FLTCNT INTEGER ICLP05 LOGICAL ENDOK,CONEND COMMON /LOGOS/ ADDR, ADRFLG, CUROP, NEXTOP, CFLAG COMMON /LOGOS/ PI, XBBL, XA, XF, XZERO, DPVFLG COMMON /LOGOS/ LC, LCI, LODLCI, LODLCV, LDLCVO, MAXLCV COMMON /LOGOS/ NEXT, NUMBER, I, IOTYPE COMMON /LOGOS/ J, K, L, LABNLX, M, N COMMON /LOGOS/ PSYMB, SYMBOL, TOP, VALFLG, QVALUE COMMON /LOGOS/ OPTOPX, OPNXTX, TOPX, NEXTX COMMON /LOGOS/ DUMMY, OVCHN, PEEKS COMMON /LOGOS/ LO, CI, CO, LOGICF, LOCSUP COMMON /LOGOS/ VAREF, INPUTJ, LCTS, CRUCNT, FLTCNT COMMON /LOGOS/ ICLP05 COMMON /LOGOS/ ENDOK,CONEND INTEGER WF1,WF2,WF3,WF4,WF5,WF6,WF7,WF8,WF9,WF10,WF11,WF12,WF13,W 1F14,WF15,WF16,WF17 INTEGER ICLP16 COMMON / WF / WF1,WF2,WF3,WF4,WF5,WF6,WF7,WF8,WF9,WF10,WF11,WF12 1,WF13,WF14,WF15,WF16,WF17 COMMON / WF / ICLP16 INTEGER NINE INTEGER COMMA, SEMIC, PERIOD, COLON, FOR, DOOP, WHILE INTEGER RBRACE, LBRACE, RETOP, CRUTCH INTEGER LPAREN, RPAREN, LBK, RBK INTEGER EQUAL, NEQUAL, GTR, GEQ, LESS, LESSEQ, ARROW INTEGER PLUS, MINUS, MULT, DIVIDE, MODOP INTEGER OROP, ANDOP, AOROP, XOROP, AANDOP INTEGER LSHIFT, RSHIFT, LCYCLE, RCYCLE, ALSHFT, ARSHFT INTEGER NEG, UPARO, DNARO, COM INTEGER LOC, GIZZY, QUOTE, ZRL, TEMPL INTEGER SP, DP, ST, HEX INTEGER ATSIGN INTEGER ICLP06 COMMON /OPERS/ NINE COMMON /OPERS/ COMMA, SEMIC, PERIOD, COLON, FOR, DOOP, WHILE COMMON /OPERS/ RBRACE, LBRACE, RETOP, CRUTCH COMMON /OPERS/ LPAREN, RPAREN, LBK, RBK COMMON /OPERS/ EQUAL, NEQUAL, GTR, GEQ, LESS, LESSEQ, ARROW COMMON /OPERS/ PLUS, MINUS, MULT, DIVIDE, MODOP COMMON /OPERS/ OROP, ANDOP, AOROP, XOROP, AANDOP COMMON /OPERS/ LSHIFT, RSHIFT, LCYCLE, RCYCLE, ALSHFT, ARSHFT COMMON /OPERS/ NEG, UPARO, DNARO, COM COMMON /OPERS/ LOC, GIZZY, QUOTE, ZRL, TEMPL COMMON /OPERS/ SP, DP, ST, HEX COMMON /OPERS/ ATSIGN COMMON /OPERS/ ICLP06 INTEGER GENRET INTEGER MODEX INTEGER RAWMDX INTEGER SPTR INTEGER TSTSTK INTEGER SWAP INTEGER TOPDP INTEGER NEXTDP INTEGER TOPSP INTEGER NEXTSP INTEGER SAVCAL INTEGER OUT INTEGER GETSP INTEGER SMODEX INTEGER SETX INTEGER ICLP02 COMMON /GENC/ GENRET COMMON /GENC/ MODEX COMMON /GENC/ RAWMDX COMMON /GENC/ SPTR COMMON /GENC/ TSTSTK COMMON /GENC/ SWAP COMMON /GENC/ TOPDP COMMON /GENC/ NEXTDP COMMON /GENC/ TOPSP COMMON /GENC/ NEXTSP COMMON /GENC/ SAVCAL COMMON /GENC/ OUT COMMON /GENC/ GETSP COMMON /GENC/ SMODEX COMMON /GENC/ SETX COMMON /GENC/ ICLP02 INTEGER STK (20, 13) INTEGER NAMEX (40) INTEGER OPX, STKSIZ, OCBIT, FUNBIT, SBIAS INTEGER ICLP14 COMMON /SDEFS/ STK, OPX, STKSIZ, OCBIT, FUNBIT, SBIAS COMMON /SDEFS/ ICLP14 EQUIVALENCE (STK (1,1), NAMEX (1)) INTEGER MODE (40), SUBX (20), SUBXM (20), BIAS (40) EQUIVALENCE (STK (1, 3), MODE (1)) EQUIVALENCE (STK (1, 2), SUBX (1)) EQUIVALENCE (STK (1, 4), SUBXM (1)) EQUIVALENCE (STK (1, 5), BIAS (1)) INTEGER LOCFLG (20) EQUIVALENCE (STK (1, 7), LOCFLG (1)) INTEGER NI, NJ, NK INTEGER NSIZE INTEGER NLX, FNLX, REMNLX, OVNLX, TNAME INTEGER NLSTRT, NLSTOP, NLSIZE, SRCHST INTEGER NTSTRT INTEGER NTSTOP INTEGER NTSIZE INTEGER PARFLG INTEGER SPARFL INTEGER NLWRDS INTEGER TX INTEGER NLENO INTEGER STDMD INTEGER MSHIFT INTEGER REGCNT INTEGER NULLX INTEGER STPTRX INTEGER SPMODE INTEGER DPMODE INTEGER SPECMD INTEGER ENFLAG INTEGER DFINED INTEGER CVALUE INTEGER NLXLCI INTEGER ENEXTD INTEGER NAMAT0 INTEGER NAMCON INTEGER NLMODE INTEGER PARBIT INTEGER OPBIT INTEGER LOCALB INTEGER REGBIT INTEGER EXTBIT INTEGER STRBIT INTEGER DPBIT INTEGER CBIT INTEGER PBIT INTEGER EPBIT INTEGER IOBIT INTEGER ARBIT INTEGER EXDBIT INTEGER TPLBIT INTEGER USEBIT INTEGER LCMASK INTEGER MDMASK INTEGER NAMLOC, REGNUM COMMON /NLIST/ NI COMMON /NLIST/ NJ COMMON /NLIST/ NK COMMON /NLIST/ NSIZE COMMON /NLIST/ NLX COMMON /NLIST/ FNLX COMMON /NLIST/ REMNLX COMMON /NLIST/ OVNLX COMMON /NLIST/ TNAME COMMON /NLIST/ NLSTRT COMMON /NLIST/ NLSTOP COMMON /NLIST/ NLSIZE COMMON /NLIST/ SRCHST COMMON /NLIST/ NTSTRT COMMON /NLIST/ NTSTOP COMMON /NLIST/ NTSIZE COMMON /NLIST/ PARFLG COMMON /NLIST/ SPARFL COMMON /NLIST/ NLWRDS COMMON /NLIST/ TX COMMON /NLIST/ NLENO COMMON /NLIST/ STDMD COMMON /NLIST/ MSHIFT COMMON /NLIST/ REGCNT COMMON /NLIST/ NULLX COMMON /NLIST/ STPTRX COMMON /NLIST/ SPMODE COMMON /NLIST/ DPMODE COMMON /NLIST/ SPECMD COMMON /NLIST/ ENFLAG COMMON /NLIST/ DFINED COMMON /NLIST/ CVALUE COMMON /NLIST/ NLXLCI COMMON /NLIST/ ENEXTD COMMON /NLIST/ NAMAT0 COMMON /NLIST/ NAMCON COMMON /NLIST/ NLMODE COMMON /NLIST/ PARBIT COMMON /NLIST/ OPBIT COMMON /NLIST/ LOCALB COMMON /NLIST/ REGBIT COMMON /NLIST/ EXTBIT COMMON /NLIST/ STRBIT COMMON /NLIST/ DPBIT COMMON /NLIST/ CBIT COMMON /NLIST/ PBIT COMMON /NLIST/ EPBIT COMMON /NLIST/ IOBIT COMMON /NLIST/ ARBIT COMMON /NLIST/ EXDBIT COMMON /NLIST/ TPLBIT COMMON /NLIST/ USEBIT COMMON /NLIST/ LCMASK COMMON /NLIST/ MDMASK COMMON /NLIST/ NAMLOC, REGNUM INTEGER BRACEX, SELX, LSX, SELXB INTEGER FUNCNT, FSCNT, FRCNT, FUNVAL INTEGER NRFLS, ARGSIZ, PARCNT INTEGER BSTACK (10), SUBENT (40) INTEGER FLS (6), PARSAV, FLSAVE (6) INTEGER WHSTRT (30), WHLOW (10), WHHIGH (10) INTEGER LOOPT (10), LOOPE (10), LOOPF (10) COMMON /BRACE/ BRACEX, SELX, LSX, SELXB COMMON /BRACE/ FUNCNT, FSCNT, FRCNT, FUNVAL COMMON /BRACE/ NRFLS, ARGSIZ, PARCNT COMMON /BRACE/ WHSTRT, BSTACK, SUBENT COMMON /BRACE/ FLS, PARSAV, FLSAVE EQUIVALENCE (WHSTRT, LOOPT) EQUIVALENCE (WHLOW, LOOPE, WHSTRT (11)) EQUIVALENCE (WHHIGH, LOOPF, WHSTRT (21)) INTEGER ADCINX INTEGER ANDINX INTEGER ASLINX INTEGER BITINX INTEGER CMPINX INTEGER CPXINX INTEGER CPYINX INTEGER DECINX INTEGER EORINX INTEGER INCINX INTEGER JMPINX INTEGER JSRINX INTEGER LDAINX INTEGER LDXINX INTEGER LDYINX INTEGER LSRINX INTEGER ORAINX INTEGER ROLINX INTEGER RORINX INTEGER SBCINX INTEGER STAINX INTEGER STXINX INTEGER STYINX INTEGER ICLP07 COMMON /OPINX/ ADCINX, ANDINX, ASLINX, BITINX, CMPINX COMMON /OPINX/ CPXINX, CPYINX, DECINX, EORINX, INCINX COMMON /OPINX/ JMPINX, JSRINX, LDAINX, LDXINX, LDYINX COMMON /OPINX/ LSRINX, ORAINX, ROLINX, RORINX, SBCINX COMMON /OPINX/ STAINX, STXINX, STYINX COMMON /OPINX/ ICLP07 INTEGER CLRACV INTEGER CLRACX INTEGER CLRSTA INTEGER TRAREG INTEGER SAVREG INTEGER CTFREE INTEGER SETREG INTEGER ICLP11 COMMON /RMCODE/ CLRACV, CLRACX, CLRSTA, TRAREG, SAVREG COMMON /RMCODE/ CTFREE, SETREG COMMON /RMCODE/ ICLP11 INTEGER AREG, XREG, YREG, NRREGS INTEGER STATUS (10), STAREG, STXREG, STYREG INTEGER REGS (10) INTEGER ACTREG (2), ACTLO, ACTHI INTEGER NZREG INTEGER ICLP10 COMMON / REGS / AREG, XREG, YREG, NRREGS COMMON / REGS / STATUS, REGS, ACTREG, NZREG COMMON / REGS / ICLP10 EQUIVALENCE (ACTLO, ACTREG (1)) EQUIVALENCE (ACTHI, ACTREG (2)) EQUIVALENCE (STAREG, STATUS (1)) EQUIVALENCE (STXREG, STATUS (2)) EQUIVALENCE (STYREG, STATUS (3)) INTEGER LTLI, LLX, LOCNLX (10), LOCTLI (10) COMMON /LABCOM/ LTLI, LLX, LOCNLX, LOCTLI INTEGER WOPTR, WO (64), TLI, TL (128) INTEGER BO, SS, SS2, NRFCH COMMON /SCR1/ WOPTR, WO, TLI, TL COMMON /SCR1/ BO, SS, SS2, NRFCH INTEGER FUNC INTEGER TS, RET, OPTS, JMPX, JMPWF, JMPOP, JMPB LOGICAL NLTEST JMPX = NAMEX (OPX) JMPB = BIAS (OPX) JMPOP = 108 GO TO (10, 30), FUNC 10 IF (.NOT. (SUBX (OPX) .NE. 0 .OR. NLTEST (JMPX, PBIT)))GO TO 13043 IF (JMPX .EQ. NULLX .OR. NLTEST (JMPX, PBIT)) JMPOP = 76 CALL REGMAN (CTFREE, TS, 2) STATUS (TS) = -1 TS = TS + 1 LOCFLG (OPX) = 1 RET=1 GO TO 15 11 TS = TS - 1 STATUS (TS) = 0 CALL BLDOP (169, WF5, JMPOP, NULLX, WF7) CALL BLDOP (133, WF5, 1, REGS (TS), WF7) JMPB = 1 JMPX = REGS (TS) 13043 CONTINUE CALL GENER (SAVCAL) CALL BLDOP (32, WF8, JMPB, JMPX, WF7) CALL SET (0, FLSAVE, 6) CALL REGMAN (CLRACV, 0, 0) RETURN 15 TOPX = OPX + 1 CALL CLRSTK (TOPX) NAMEX (TOPX) = REGS (TS) MODE (TOPX) = DPMODE STATUS (TS) = -1 CALL SETUP (STAINX, TOPX) MODE (OPX) = DPMODE CALL SETUP (LDAINX, OPX) OPTS = NEXTOP NEXTOP = COMMA CALL GEN (ARROW, OPX, TOPX) IF (ACTHI .NE. 0) STATUS (ACTHI) = 0 IF (ACTLO .NE. 0) STATUS (ACTLO) = 0 ACTHI = 0 ACTLO = 0 STATUS (TS) = 0 NEXTOP = OPTS GOTO (11,32),RET 30 IF (.NOT. (SUBX (OPX) .EQ. 0))GO TO 13045 JMPWF = WF7 IF (.NOT. (NLTEST (JMPX, PBIT)))GO TO 13047 IF (JMPB .NE. 0) GO TO 31 GO TO 13048 13047 CONTINUE JMPOP = 76 IF (.NOT. (SPARFL .NE. 0))GO TO 13049 DO 13051 LLX = 1, 10 IF (.NOT. (LOCNLX (LLX) .EQ. JMPX))GO TO 13053 JMPWF = WF9 JMPX = LOCTLI (LLX) GO TO 13052 13053 CONTINUE IF (.NOT. (LOCNLX (LLX) .EQ. 0))GO TO 13055 CALL NLSET (JMPX, USEBIT) TL (TLI) = -JMPX JMPWF = WF9 JMPX = TLI TLI = TLI + 1 GO TO 13052 13055 CONTINUE 13051 CONTINUE 13052 CONTINUE 13049 CONTINUE 13048 CONTINUE CALL BLDOP (JMPOP, WF8, JMPB, JMPX, JMPWF) GO TO 13046 13045 CONTINUE IF (.NOT. (JMPX .EQ. NULLX))GO TO 13057 IF (SUBXM (OPX) .EQ. SPMODE) CALL FAULTP (42) IF (.NOT. (NLTEST (JMPX, PBIT)))GO TO 13059 NAMEX (OPX) = SUBX (OPX) MODE (OPX) = SUBXM (OPX) SUBX (OPX) = 0 GO TO 31 13059 CONTINUE CALL REGMAN (SAVREG, AREG, TS) JMPX = SUBX (OPX) GO TO 13058 13057 CONTINUE 31 CALL REGMAN (CTFREE, TS, 1) RET=2 GO TO 15 32 JMPX = REGS (TS) JMPB = 0 13058 CONTINUE CALL BLDOP (JMPOP, WF8, JMPB, JMPX, WF7) 13046 CONTINUE RETURN END