ASME's Mechanical Engineering Toolkit 1997 December

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Pascal/Delphi Source File | 1986-01-04 | 43KB | 1,466 lines

Program Augusta; { A public domain subset of the US Deptartment of Defense } { computer language Ada. } {$U+,R+} const CrLf = #13#10; FF = #12; quote = '"'; alf = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'; lc = 'abcdefghijklmnopqrstuvwxyz'; dig = '0123456789'; hdig = '0123456789ABCDEF'; an = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_'; PLDCI = 1; PLDL = 2; PLLA = 3; PLDB = 4; PLDO = 5; PLAO = 6; PDUP = 7; PLOD = 8; PLDA = 9; PPOP = 10; PSTO = 11; PSINDO = 12; PLCA = 13; PSAS = 14; PAND = 16; POR = 17; PNOT = 18; PADI = 19; PNGI = 20; PSBI = 21; PMPI = 22; PDVI = 23; PIND = 24; PEQUI = 25; PNEQI = 26; PLEQI = 27; PSLDC = 61; PINCL = 80; PDECL = 81; PLESI = 28; PGEQI = 29; PGTRI = 30; PEQUSTR = 31; PNEQSTR = 32; PLEQSTR = 33; PLESSTR = 34; PGEQSTR = 35; PGTRSTR = 36; PUJP = 37; PFJP = 38; PXJP = 39; PCLP = 40; PCGP = 41; PCSP = 42; PRET = 43; PMODI = 45; PCIP = 46; PRNP = 47; PEOP = 15; PSLDCN1 = 63; PIXA = 48; PSLDO = 57; PSLAO = 58; PSLLA = 59; PSLDLO = 49; PSLDL = 60; squote = 0; eol = 1; c = 2; lp = 3; rp = 4; mul = 5; kdiv = 6; add = 7; subt = 8; les = 9; leq = 10; gt = 11; geq = 12; eq = 13; neq = 14; bar = 15; kid = 16; sc = 17; comma = 18; semicolon = 19; colon = 20; eqgt = 21; coloneq = 22; dot = 23; dotdot = 24; kch = 25; at = 26; kand = 27; karray = 28; kbegin = 29; kcase = 30; kconst = 31; kdeclare = 32; kelse = 33; kelseif = 34; kend = 35; kexit = 36; kfor = 37; kfunc = 38; kif = 39; kin = 40; kis = 41; kloop = 42; klast = 43; klen = 44; kmod = 45; knot = 46; knull = 47; kof = 48; kor = 49; kothers = 50; kout = 51; kpragma = 52; kproc = 53; kret = 54; kreverse = 55; kthen = 56; kwhen = 57; kwhile = 58; TSTR = 0; TINT = 1; TCHR = 2; TBOL = 4; FMSZ = 14; NKEY = 33; MB = 3; { Define sets of token numbers as character strings } addop = #7#8; { ADD,SUBT } mulop = #5#6#45; { MUL,KDIV,KMOD } logicalop = #27#49; { KAND,KOR } unaryop = #7#8#46; { ADD,SUBT,KNOT } relop = #9#10#11#12#13#14; { LES,LEQ,GT,GEQ,EQ,NEQ } declpartx = #16#53#38#52; { ID,KPROC,KFUNC,KPRAGMA } stmtx = #58#37#42#32#29#36#54#39#30#47#16#52; { KWHILE,KFOR,KLOOP,KDECLARE,KBEGIN,KEXIT,KRET,KIF,KCASE,KNULL,ID,KPRAGMA } type anystring = string[255]; string2 = string[2]; string8 = string[8]; proc_entry_type = record T1 : array[1..2] of char; T2 : array[1..2] of char; T3 : array[1..2] of char; D : array[1..2] of char; S : array[1..2] of char; end; buffer_type = array[1..128] of char; var spaces,lexch : anystring; { constant strings too long to declare } null_rec : buffer_type; Plst,Clst : boolean; { true if print or crt listing are on } LP_Str : anystring; { printer init string, read from datafile } C_Str : anystring; MAP : array[0..26] of integer; KEYWD : array[0..33] of string8; S_str : array[0..100] of anystring; TY : array[0..20] of integer; buffer : array[0..Mb] of buffer_type; B : array[0..Mb] of integer; D : buffer_type; S : array[0..500] of integer; buf : anystring; { holds the current line } B_ptr,Oldb : integer; { indexes into buf } Ch : char; { the most recent char out of buf } sym_str : anystring; Id : string8; { formatted symbol string } infile : array[2..4] of text; { input file variables } isopen : array[2..4] of boolean; One : file of buffer_type; { code output file } Ln : integer; { line number being proceesed } Eoi : boolean; { true for end of input } LL,L1,P1,C1 : integer; Cproc,proc : integer; { proc # being compiled, proc count } M0 : integer; { maximum code record } TSP,SSP : integer; { internal type and symbol stack counter } GC,CP,CB,SP : integer; { various code pointers } SI : integer; { input file number (changes with includes) } pType,Kind, Pinfo,pConst, Ofst,MxOf,Addr, ObjSz,Lex : integer; { procedure descriptors } I,J,X,W,Hash : integer; R0,R1,R2 : integer; { record numbers } T1,T2,T3,T4, T5,T6,T7,T8 : integer; T1_Str,T2_Str : anystring; LOC1,LOC2 : integer; T,T0,TN : integer; { token numbers and values } TT : char; { and character equivalents for search } XitJp,LFjp,LUjp : integer; { heads of lists of jumps to be patched } lpflg : integer; { non-zero when inside a LOOP-END structure } cases : integer; Procedure ShowErr(E : integer); begin writeln(CrLf,'*** Error ',E,' in line ',LN,CrLf,BUF); writeln(copy(spaces,1,B_ptr-1),'*'); if PLST then writeln(Lst,'*** Error ',E,' in line ',LN); end; Procedure Error(E : integer); begin showerr(E); for SI:=2 to 4 do if isopen[SI] then close(infile[SI]); close(One); halt; end; Procedure Expected(E : integer); begin writeln(CrLf,T0,' expected'); ShowErr(E); end; Function MKI(I : integer): string2; begin mki := chr(lo(I)) + chr(hi(I)); end; Procedure Push(X : integer); { 4280 '********** Push } begin S[SP] := X; SP := SP + 1; end; Procedure Pop(var X : integer); { 4300 '********** Pop } begin SP := SP - 1; X := S[SP]; end; Procedure PushSyms; { 5400 '********** Push Syms } begin X := LENgth(S_str[SSP]); IF X=255 THEN begin SSP := SSP + 1; s_str[SSP] := ''; X := 0; end; Push(X); X := SSP; Push(X); end; Procedure PopSyms; { 5500 '********** Pop Syms } begin Pop(X); FOR I:=X+1 TO SSP do S_str[I] := ''; SSP := X; Pop(X); LOC2 := X; end; Procedure GetBuf; { 4140 '********** GetBuf } var temp : integer; begin R1 := (CP + CB) div 128 + 1; R2 := (CP + CB) and 127; IF R1<>R0 THEN begin J := 0; for temp:=1 to MB do if (B[temp]=R0) or (B[temp]=0) then J := temp; IF J<>0 THEN begin Buffer[J] := D; B[J] := R0; END else begin Buffer[0] := D; J := trunc(Random*MB) + 1; D := Buffer[J]; while filesize(One)<(B[J]-1) do begin seek(One,filesize(One)); write(One,null_rec); end; Seek(One,B[J]-1); write(One,D); Buffer[J] := Buffer[0]; B[J] := R0; end; J := 0; for temp:=1 to MB do if B[temp]=R1 then J := temp; IF J<>0 THEN begin D := Buffer[J]; R0 := R1; IF R1>M0 THEN M0 := R1; end else begin if R1>filesize(One) then D := null_rec else begin seek(One,R1-1); Read(One,D); end; R0 := R1; IF R1>M0 THEN M0 := R1; end; end; end; Procedure ReadByte; { 4260 '********** ReadByte } begin GetBuf; W := ord(D[R2+1]); end; Procedure ReadWrd; { 4010 '********** read wrd } begin ReadByte; T1 := W; CP := CP + 1; ReadByte; W := (W shl 8) + T1; CP := CP - 1; end; Procedure GenByte; { 3990 '********** GenByte } begin GetBuf; D[R2+1] := CHR(W); CP := CP + 1; end; Procedure GenWord; { 4030 '********** GenWord W } var temp : integer; tmp_str : string[2]; begin GetBuf; IF R2<127 THEN begin tmp_str := MKI(W); D[R2+1] := tmp_str[1]; D[R2+2] := tmp_str[2]; CP := CP + 2; end else begin temp := W; W := W and 255; GenByte; W := temp shr 8; GenByte; end; end; Procedure Open_source; {1230 } begin SI := SI + 1; if SI in[2..4] then begin assign(infile[SI],sym_str); reset(infile[SI]); isopen[SI] := true; end else begin writeln('Bad file number :',SI); halt; end; end; Procedure Getline; { 1280 } begin repeat LN := LN + 1; IF EOF(infile[SI]) THEN begin CLOSE(infile[SI]); SI := SI - 1; IF (SI>1) AND PLST THEN writeln(lst,'* End of INCLUDE'); end; IF SI=1 THEN EOI := true else begin readln(infile[SI],BUF); IF PLST THEN begin writeln(lst,ln:5,' ',cproc:4,' ',cp:6,' ',ofst:6,' ',copy(BUF,1,54)); if (LN MOD 60)=0 THEN writeln(lst,ff,LP_Str); end; IF CLST THEN writeln(BUF) else IF (LN AND 63)=63 THEN writeln(LN,'...'); end; until (buf>'') or EOI; if not EOI then begin BUF := BUF + CHR(3); B_ptr := 1; WHILE BUF[B_ptr]=' ' do B_ptr := B_ptr + 1; CH := BUF[B_ptr]; B_ptr := B_ptr + 1; end; end; Procedure Getch; { 1360 '********** GetCh } begin CH := BUF[B_ptr]; B_ptr := B_ptr + 1; end; Procedure LookupKeyword; begin HASH := MAP[pos(id[1],ALF)]; while keywd[hash]<ID do HASH := HASH + 1; if keywd[hash]=id then T := hash + 26 else T := kID; end; Procedure GetSStr; { 1930 '********** Get S$ } begin Sym_str := copy(BUF,OLDB-1,B_ptr-OLDB); {1940} end; Procedure Getsym; { 1400 '********** GetSym } var flag : boolean; I1 : integer; begin repeat oldb := b_ptr; Ch := upcase(Ch); I := pos(ch,LEXCH); IF I=0 THEN Error(1); IF I<27 THEN begin sym_str := ''; while pos(ch,an)<>0 do begin IF CH<>'_' THEN Sym_str := Sym_str + CH; GetCh; Ch := upcase(Ch); end; IF LENgth(Sym_str)>8 THEN Sym_str := copy(Sym_str,1,8); ID := Sym_str + copy(SPACEs,1,8-LENgth(Sym_str)); LookupKeyword; end else begin case I of 27..36: begin TN := 0; I1 := 10; repeat flag := true; WHILE pos(ch,HDIG)<>0 do begin TN := TN * I1 + pos(ch,HDIG) - 1; Getch; end; IF CH='#' THEN begin flag := false; I1 := TN; TN := 0; Getch; end; until flag; T := C; end; 37: begin WHILE CH=' ' do begin CH := BUF[B_ptr]; B_ptr := B_ptr + 1; end; OLDB := B_ptr; end; 38: begin T := AT; Getch; end; 39: begin T := MUL; Getch; end; 40: begin T := ADD; Getch; end; 41: begin Getch; IF CH='>' THEN begin T := EQGT; Getch; end ELSE T := EQ; end; 42: begin T := SUBT; Getch; IF CH='-' THEN begin Getline; OLDB := B_ptr; end; end; 43: begin Getch; IF CH='=' THEN begin T := LEQ; Getch; end ELSE T := LES; end; 44: begin Getch; IF CH='=' THEN begin T := GEQ; Getch; end ELSE T := GT; end; 45: begin Getch; IF CH='=' THEN begin T := NEQ; Getch; end ELSE T := kDIV; end; 46: begin Getch; IF CH='=' THEN begin T := COLONEQ; Getch; end ELSE T := COLON; end; 47: begin T := SEMICOLON; Getch; end; 48: begin Getch; Getch; IF CH<>#39 THEN error(11); Getch; GetSStr; TN := ord(Sym_str[2]); T := kCH; end; 49: begin T := RP; Getch; end; 50: begin T := LP; Getch; end; 51: begin T := COMMA; Getch; end; 52: begin I1 := pos('"',copy(buf,b_ptr,255)); IF I1=0 THEN error(10); Sym_str := copy(BUF,B_ptr,I1-1); T := SC; B_ptr := B_ptr + I1; Getch; end; 53: begin T := DOT; Getch; IF CH='.' THEN begin T := DOTDOT; Getch; end; end; 54: begin T := BAR; Getch; end; 55: begin T := BAR; Getch; end; 56: begin GetLine; OLDB := B_ptr; end; 57: begin T := SQUOTE; Getch; end; 58: begin Getch; OLDB := B_ptr; end; end; end; IF EOI THEN error(12); until oldb<>b_ptr; TT := CHR(T); end; Procedure AddID; { 3850 '********** Add ID } begin IF (LENgth(S_str[SSP])+17)>255 THEN begin SSP := SSP + 1; s_str[ssp] := ''; end; insert(ID+CHR(pTYPE)+CHR(KIND)+CHR(PINFO)+MKI(pCONST)+CHR(OBJSZ) +MKI(ADDR)+CHR(LL),s_str[SSP],1); end; Procedure LookupID; { 3890 '********** Lookup ID } var work : anystring; begin LOC1 := SSP; Loc2 := 0; while (loc1>0) and (Loc2=0) do begin LOC2 := pos(ID,S_str[LOC1]); IF LOC2=0 THEN LOC1 := LOC1 - 1; end; IF LOC1<1 THEN Error(2); work := s_str[loc1]; pTYPE := ord(work[loc2+8]); KIND := ord(work[loc2+9]); PINFO := ord(work[loc2+10]); pCONST := ord(work[loc2+11]) + (ord(work[loc2+12]) shl 8); OBJSZ := ord(work[loc2+13]); ADDR := ord(work[loc2+14]) + (ord(work[loc2+15]) shl 8); LEX := ord(work[loc2+16]); end; Procedure TestToken; var T_Str : anystring; begin while T0<>T do begin {1950} expected(4); write('Reenter+ '); readln(T_str); BUF := copy(BUF,1,B_ptr-1) + T_str + CHR(3); Getch; Getsym; end; end; Procedure TstToken_GetNext; begin IF T0<>T THEN TestToken; Getsym; end; Procedure Get_C; { 2290 '********** Get C } var v1,v2,v3,v4,v5,v6 : integer; { temp variables to preserve the id } begin IF T=kID THEN begin V1 := pTYPE; V2 := KIND; V3 := PINFO; V4 := pCONST; V5 := OBJSZ; V6 := LL; LookupID; IF (KIND=0) AND (pTYPE=1) THEN begin T := C; T2 := pCONST; end; pTYPE := V1; KIND := V2; PINFO := V3; pCONST := V4; OBJSZ := V5; LL := V6; end; T0 := C; TstToken_GetNext; end; Procedure Pragma; { 2770 '********** Pragma } var t_str : string8; begin while T=KPRAGMA do begin Getsym; if sym_str='CRT' then begin Getsym; T0 := LP; TstToken_GetNext; T_str := Sym_str; Getsym; T0 := RP; TstToken_GetNext; IF T_str='ON' THEN CLST := true ELSE CLST := false; end else if sym_str='INCLUDE' then begin Getsym; T0 := LP; TstToken_GetNext; IF T<>SC THEN Error(9) ELSE begin Open_Source; Getsym; T0 := RP; TstToken_GetNext; end; end else if sym_str='LIST' then begin Getsym; T0 := LP; TstToken_GetNext; T_str := Sym_str; Getsym; T0 := RP; TstToken_GetNext; IF T_str='ON' THEN begin PLST := true; write(lst,lp_str); end ELSE IF T_str='OFF' THEN PLST := false; end; Getline; Getsym; end; end; Procedure SubTIDUnit; { 2250 '********** SubtypeIdentificationUnit } begin LookupID; IF KIND<>4 THEN error(8); IF PINFO=0 THEN KIND := 1 ELSE KIND := 5; IF pTYPE<>0 THEN Getsym else begin Getsym; IF T=LP THEN begin Getsym; Get_C; OBJSZ := TN + 1; T0 := RP; TstToken_GetNext; end; IF OBJSZ>255 THEN error(15); end; end; Procedure ProcDef; { 5200 '********** Proc DEF } begin LL := LL + 1; Push(cproc); Push(OFST); Push(MXOF); T0 := kID; TestToken; PushSyms; end; Procedure ProcFormalPart; { 2100 '********** ProcFormalPart } var flag : boolean; Procedure ProcParamDecl; { 2160 '********** ProcParamDecl } var flag : boolean; begin T1_str := ''; repeat flag := true; T0 := kID; TestToken; T1_str := T1_str + ID; Getsym; IF T=COMMA THEN begin Getsym; flag := false; end; until flag; T0 := COLON; TstToken_GetNext; P1 := 1; IF T=KOUT THEN begin P1 := 2; Getsym; end else IF T=KIN THEN Getsym; SubTIDUnit; PINFO := P1; WHILE LENgth(T1_str)>0 do begin T2_str := T2_str + copy(T1_str,1,8) + CHR(pTYPE) + CHR(KIND) + CHR(PINFO) + MKI(pCONST) + CHR(OBJSZ) + MKI(0) + CHR(LL); delete(T1_str,1,9); OFST := OFST-2; end; end; begin T2_str := ''; T0 := LP; TstToken_GetNext; repeat flag := true; ProcParamDecl; IF T=SEMICOLON THEN begin Getsym; flag := false; end; until flag; T0 := RP; TstToken_GetNext; I := OFST; repeat T1_str := copy(T2_str,1,17); delete(T2_str,1,17); IF (LENgth(S_str[SSP])+17)>255 THEN begin SSP := SSP + 1; s_str[SSP] := ''; end; insert(copy(T1_str,1,14)+MKI(I)+T1_str[length(T1_str)],S_str[SSP],1); I := I + 2; until I>(-FMSZ-2); end; Procedure ProcEndDef; { 5300 '********** Proc END DEF } Procedure WriteProc; { 4910 '********** WriteProc } begin T2 := CP; T3 := CB; CB := 0; CP := (ADDR-1)*7 + 128; W := C1 - 1920; GenWord; W := L1; GenWord; W := P1; GenWord; W := LL; GenByte; CP := T2; CB := T3; end; begin W := PEOP; GenByte; Pop(P1); Pop(ADDR); CPROC := ADDR; L1 := MXOF; C1 := GC; WriteProc; GC := GC + CP; LL := LL - 1; PopSyms; Delete(S_str[SSP],1,length(s_str[ssp])-LOC2-17); Pop(MXOF); Pop(OFST); Pop(X); CPROC := X; end; Procedure BodyPart; forward; { parseproc -> bodypart -> declpart -> parseproc or parsefunc. } { One has to be Forwarded } Procedure ParseProc; { 2010 '********** Parse Proc } begin ProcDef; KIND := 2; PROC := PROC + 1; CPROC := PROC; ADDR := PROC; X := ADDR; Push(X); AddID; Getsym; OFST := -FMSZ; IF T<>KIS THEN begin ProcFormalPart; T0 := KIS; TestToken; end; X := -(OFST+FMSZ); Push(X); Getsym;OFST := 0; MXOF := 0; BodyPart; W := PRET; GenByte; ProcEndDef; end; Procedure ParseFunc; { 2340 '********** ParseFunc } begin ProcDef; KIND := 3; PROC := PROC + 1; CPROC := PROC; ADDR := PROC; X := ADDR; Push(X); AddID; Push(SSP); X := LENgth(S_str[SSP]); Push(X); Getsym; OFST := -FMSZ; IF T=LP THEN ProcFormalPart; T0 := KRET; TstToken_GetNext; SubTIDUnit; Pop(T2); Pop(X); T1 := X; T3 := LENgth(S_str[T1]); IF (KIND<>5) OR (OBJSZ<>2) THEN error(16); S_str[T1][T3-T2+9] := CHR(pTYPE); T0 := KIS; TstToken_GetNext; X := -(OFST+FMSZ); Push(X); OFST := 0; MXOF := 0; BodyPart; ProcEndDef; end; Procedure DeclPart; { 2480 '********** DeclPart } var K1 : integer; Procedure ObjDecl; { 2560 '********** ObjDecl } var objsize : integer; begin Getsym; while T=COMMA do begin Getsym; T0 := kID; TestToken; T1_str := T1_str + ID; GetSym; end; T0 := COLON; TstToken_GetNext; IF T=KCONST THEN begin K1 := 0; OBJSIZE := 0; Getsym; T0 := COLONEQ; TstToken_GetNext; IF T=kID THEN LookupID ELSE begin IF T=SUBT THEN begin T1 := -1; Getsym; end ELSE T1 := 1; pCONST := TN*T1; IF T=C THEN pTYPE := 1 ELSE pTYPE := 2; end; Getsym; end else IF T=KARRAY THEN begin K1 := 1; Getsym; T0 := LP; TstToken_GetNext; T2 := TN; Get_C; T0:= RP; TstToken_GetNext; T0 := KOF; TstToken_GetNext; SubTIDUnit; pCONST := T2; OBJSIZE := (T2+1)*OBJSZ; IF (T2<0) OR (T2>16383) THEN error(15); end else begin SubTIDUnit; OBJSIZE := OBJSZ; end; PINFO := 0; KIND := K1; WHILE LENgth(T1_str)>0 do begin ID := copy(T1_str,1,8); delete(T1_str,1,8); ADDR := OFST; OFST := OFST + OBJSIZE; AddID; end; end; begin case T of kID: begin T1_str := ID; K1 := 5; ObjDecl; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; KPROC: begin Getsym; ParseProc; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; KFUNC: begin Getsym; ParseFunc; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; KPRAGMA: Pragma else error(3); end; IF pos(TT,DECLPARTx)<>0 THEN declpart ELSE IF OFST>MXOF THEN MXOF := OFST; end; Procedure B_B; begin GenByte; W := ADDR; GenByte; end; Procedure B_W; begin GenByte; W := ADDR; GenWord; end; Procedure LDCons; { 3635 '********** LD Cons } begin case TN of -1 : begin W := PSLDCN1; Genbyte end; 0..15 : begin W := 64 + TN; Genbyte; end; 16..255 : begin W := PSLDC; GenByte; W := TN; GenByte; end; else begin W := PLDCI; GenByte; W := TN; GenWord; end; end; end; Procedure LDVal; { 3820 '********** LD Val } begin IF LEX=1 THEN IF ADDR<256 THEN begin W := PSLDO; B_B; end ELSE begin W := PLDO; B_W; end ELSE IF LEX=LL THEN IF (ADDR>=0) AND (ADDR<8) THEN begin W := PSLDLO + ADDR; GenByte; end else IF (ADDR>7) AND (ADDR<256) THEN begin W := PSLDL; B_B; end ELSE begin W := PLDL; B_W; end ELSE begin W := PLOD; GenByte; W := LL - LEX; B_W; end; end; Procedure LDAdr; { 4060 '********** LD Adr } begin IF PINFO=2 THEN LDVal else IF LEX=1 THEN IF ADDR<256 THEN begin W := PSLAO; B_B; end ELSE begin W := PLAO; B_W; end ELSE IF LEX=LL THEN IF (ADDR>=0) AND (ADDR<256) THEN begin W := PSLLA; B_B; end ELSE begin W := PLLA; B_W; end ELSE begin W := PLDA; GenByte; W := LL - LEX; B_W; end; end; Procedure CheckBool; { 4930 '********** Check Bool } begin IF TY[TSP]<>TBOL THEN Error(9); TSP := TSP - 1; end; Procedure CheckInt; { 4960 '********** Check Int } begin IF TY[TSP]<>TINT THEN Error(9); TSP := TSP - 1; end; Procedure Expr; forward; { primary -> actualparam -> expr -> se -> primary. One has to be forwarded } Procedure ActualParam; { 3570 '********** ActualParam } begin IF T=AT THEN begin Getsym; T0 := kID; TestToken; LookupID; LDAdr; Getsym; IF KIND=1 THEN begin X := OBJSZ; Push(X); T0 := LP; TstToken_GetNext; Expr; CheckInt; Pop(X); IF X=2 THEN W := PIND ELSE begin W := PIXA; GenByte; W := X; end; GenByte; T0 := RP; TstToken_GetNext; end; end ELSE begin Expr; TSP := TSP - 1; end; IF T=COMMA THEN begin Getsym; ActualParam; end; end; Procedure CallProc; { 4100 '********** Call Proc } begin Pop(LEX); Pop(X); ADDR := X; if Lex=0 then W := PCSP else if Lex=2 then W := PCGP else if LEX=(LL+1) then W := PCLP else W := PCIP; GenByte; W := ADDR; GenByte; end; Procedure Se; Procedure Term; { 3350 '********** Term } Procedure Primary; { 3610 '********** Primary } begin case T of LP : begin Getsym; Expr; T0 := RP; TstToken_GetNext; end; C : begin TSP := TSP + 1; TY[TSP] := TINT; LDCons; Getsym; end; kCH : begin TSP := TSP + 1; TY[TSP] := TCHR; LDCons; Getsym; end; SC : begin TSP := TSP + 1; TY[TSP] := TSTR; W := PLCA; GenByte; W := LENgth(Sym_str); GenByte; FOR I:=1 TO LENgth(Sym_str) do begin W := ord(Sym_str[I]); GenByte; end; Getsym; end; else begin T0 := kID; TestToken; LookupID; IF KIND=0 THEN begin TSP := TSP + 1; TY[TSP] := pTYPE; TN := pCONST; LDCons; Getsym; end else begin Getsym; IF T=SQUOTE THEN begin TSP := TSP + 1; TY[TSP] := TINT; Getsym; IF T=KLAST THEN begin W := PLDCI; GenByte; W := pCONST; GenWord; Getsym; end else IF T=KLEN THEN begin LDAdr; W := PLDB; GenByte; end ELSE Error(7); end else IF KIND=4 THEN begin X := pTYPE; Push(X); T0:=LP; TstToken_GetNext; Expr; T0:=RP; TstToken_GetNext; Pop(X); TY[TSP] := X; end else begin TSP := TSP + 1; TY[TSP] := pTYPE; IF pTYPE=0 THEN IF KIND=1 THEN begin LDAdr; X := OBJSZ; Push(X); T0 := LP; TstToken_GetNext; Expr; IF TY[TSP]<>TINT THEN Error(9); TSP := TSP - 1; Pop(X); W := PIXA; GenByte; W := X; GenByte; T0 := RP; TstToken_GetNext; end else LDAdr else IF KIND=1 THEN begin LDAdr; T0 := LP; TstToken_GetNext; Expr; IF TY[TSP]<>TINT THEN Error(9); TSP := TSP - 1; W := PIND; GenByte; W := PSINDO; GenByte; T0 := RP; TstToken_GetNext; end else IF KIND=3 THEN begin Push(ADDR); X := LEX; Push(X); IF T=LP THEN begin Getsym; ActualParam; T0 := RP; TstToken_GetNext; end; CallProc; end else begin LDVal; IF PINFO=2 THEN begin W := PSINDO; GenByte; end; end; end; end; end; end; end; begin Primary; while pos(TT,MULOP)<>0 do begin X := T; Push(X); Getsym; Primary; IF (TY[TSP]<>TY[TSP-1]) OR (TY[TSP]<>TINT) THEN Error(9); TSP := TSP - 1; Pop(X); IF X=MUL THEN W := PMPI ELSE IF X=kDIV THEN W := PDVI ELSE W := PMODI; GenByte; end; end; begin IF pos(TT,UNARYOP)<>0 THEN begin Push(T); X := 1; Push(1); Getsym; end ELSE begin X := 0; Push(0); end; Term; Pop(X); IF X=1 THEN begin Pop(X); IF X=SUBT THEN begin W := PNGI; GenByte; end ELSE begin W := PNOT; GenByte; end; end; while pos(TT,ADDOP)<>0 do begin X := T; Push(X); Getsym; Term; Pop(X); IF X=ADD THEN W := PADI ELSE W := PSBI; IF TY[TSP]<>TINT THEN error(9); TSP := TSP - 1; GenByte; end; end; Procedure Expr; { 3100 '********** Expr } var Prev : integer; Procedure Relation; { 3190 '********** Relation } begin Se; IF pos(TT,RELOP)<>0 THEN begin X := T; Push(X); Getsym; Se; IF (TY[TSP]=TINT) or (TY[TSP]=TCHR) or (TY[TSP]=TBOL) THEN begin IF TY[TSP]<>TY[TSP-1] THEN Error(9) ELSE begin TSP := TSP - 1; TY[TSP] := TBOL; end; Pop(X); case X of LES : w := PLESI; LEQ : W := PLEQI; GT : W := PGTRI; GEQ : W := PGEQI; EQ : W := PEQUI; NEQ : W := PNEQI; end; end else begin IF (TY[TSP]<>TSTR) OR (TY[TSP]<>TY[TSP-1]) THEN Error(9) else begin TSP := TSP - 1; TY[TSP] := TBOL; end; Pop(X); case X of LES : W := PLESSTR; LEQ : W := PLEQSTR; GT : W := PGTRSTR; GEQ : W := PGEQSTR; EQ : W := PEQUSTR; NEQ : W := PNEQSTR; end; end; GenByte; end; end; begin Relation; LFJP := 0; PREV := 0; while pos(TT,Logicalop)<>0 do begin X := T; GetSym; IF (X=KAND) AND (T=KTHEN) THEN X := KAND + KTHEN ELSE IF (X=KOR) AND (T=KELSE) THEN X := KOR + KELSE; IF (PREV<>0) AND (PREV<>X) THEN Error(10); if (X=KAND) or (X=KOR) then begin Push(X); Relation; IF (TY[TSP]<>TBOL) OR (TY[TSP]<>TY[TSP-1]) THEN Error(9); TSP := TSP - 1; Pop(X); PREV := X; IF X=KAND THEN W := PAND ELSE W := POR; end else begin Push(X); T1 := X; W := PDUP; GenByte; IF T1=(KAND+KTHEN) THEN W := PFJP ELSE W := PNOT; GenByte; W := PFJP; GenByte; W := LFJP; LFJP := CP; GenWord; GetSym; X := LFJP; Push(X); Relation; IF (TY[TSP]<>TBOL) OR (TY[TSP]<>TY[TSP-1]) THEN Error(9); TSP := TSP - 1; Pop(LFJP); Pop(X); PREV := X; IF PREV=(KAND+KTHEN) THEN W := PAND ELSE W := POR; end; genbyte; end; if prev<>0 then begin T2 := CP; WHILE LFJP<>0 do begin CP := LFJP; ReadWrd; LFJP := W; W := T2 - CP - 2; GenWord; end; CP := T2; end; end; Procedure Stmt; forward; { stmt -> seqofstmts -> stmt. one has to be forwarded } Procedure SeqOfStmts; { 2810 '********** SeqOfStmts } var flag : boolean; Procedure Loop1; {4590} begin T0 := KLOOP; TstToken_GetNext; Push(XITJP); XITJP := 0; X := LPFLG; Push(X); LPFLG := -1; SeqOfStmts; T0 := KEND; TstToken_GetNext; T0 := KLOOP; TstToken_GetNext; Pop(T5); Pop(X); T6 := X; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; Procedure Loop2; {4620} begin T2 := CP; WHILE XITJP<>0 do begin CP := XITJP; ReadWrd; XITJP := W; W := T2 - CP - 2; GenWord; end; CP := T2; LPFLG := T5; XITJP := T6; end; Procedure FixFJP; begin T1 := CP; Pop(CP); W := T1-CP-2; GenWord; CP := T1; end; Procedure GenUJP; { 3060 '********** Gen UJP } begin W := PUJP; GenByte; W := LUJP; LUJP := CP; GenWord; end; Procedure Four780; begin T0 := EQGT; TstToken_GetNext; Push(CP); Push(T1); Push(LUJP); CASES := CASES + 1; X := CASES; Push(X); SeqOfStmts; W:= PUJP; GenByte; Pop(CASES); Pop(X); W := X; LUJP := CP; GenWord; end; begin I := pos(TT,STMTx); while I<>0 do begin I := pos(TT,STMTx); case I of 1..3: begin if T=KWHILE then begin Getsym; X := CP; Push(X); Expr; CheckBool; W := PFJP; GenByte; X := CP; Push(X); W := 0; GenWord; Loop1; Pop(X); T1 := CP; CP := X; W := T1 - CP + 1; GenWord; CP := T1; W := PUJP; GenByte; Pop(X); W := X - CP - 2; GenWord; Loop2; end else if T=KFOR then begin Getsym; T0 := kID; TestToken; X := OFST; Push(X); PushSyms; ADDR := OFST; pTYPE := 1; KIND := 5; PINFO := 0; AddID; Getsym; T0 := KIN; TstToken_GetNext; IF T=KREVERSE THEN begin X := -1; Getsym; end ELSE X := 1; Push(X); W := PLLA; GenByte; W := OFST; GenWord; Se; CheckInt; W := PSTO; GenByte; X := CP; Push(X); W := PLDL; GenByte; W := OFST; GenWord; T0 := DOTDOT; TstToken_GetNext; Se; CheckInt; Pop(T1); Pop(X); IF X<0 THEN W := PGEQI ELSE W := PLEQI; GenByte; W := PFJP; GenByte; Push(X); Push(T1); Push(CP); W := 0; GenWord; Push(OFST); OFST := OFST + 2; IF OFST>MXOF THEN MXOF := OFST; Loop1; Pop(T3); Pop(T1); Pop(T2); Pop(X); IF X<0 THEN W := PDECL ELSE W := PINCL; GenByte; W := T3; GenWord; W := PUJP; GenByte; W := T2 - CP - 2; GenWord; T2 := CP; CP := T1; W := T2 - T1 - 2; GenWord; CP := T2; PopSyms; Delete(S_str[SSP],1,length(s_str[ssp])-LOC2); Pop(X); OFST := X; Loop2; end else begin X := CP; Push(X); Loop1; W := PUJP; GenByte; Pop(X); W := X - CP - 2; GenWord; Loop2; end; end; 4..5: begin Push(OFST); OFST := OFST + 2; PushSyms; IF T=KDECLARE THEN begin Getsym; DeclPart; end; Stmt; PopSyms; Delete(S_str[SSP],1,length(s_str[ssp])-LOC2); Pop(X); OFST := X; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; 6: begin IF LPFLG=0 THEN error(14); Getsym; IF T=SEMICOLON THEN begin W := PUJP; GenByte; end else begin T0 := KWHEN; TstToken_GetNext; Expr; CheckBool; W := PNOT; GenByte; W := PFJP; GenByte; end; W := XITJP; XITJP := CP; GenWord; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; 7: begin Getsym; IF T<>SEMICOLON THEN begin Expr; TSP := TSP - 1; W := PRNP; end ELSE W := PRET; GenByte; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; 8: begin LUJP := 0; flag := true; repeat Getsym; Expr; CheckBool; W := PFJP; GenByte; Push(CP); GenWord; X := LUJP; Push(X); T0 := KTHEN; TstToken_GetNext; SeqOfStmts; Pop(X); LUJP := X; IF T=KEND THEN FixFJP else IF T=KELSEIF THEN begin GenUJP; FixFJP; flag := false; end else begin T0 := KELSE; TstToken_GetNext; GenUJP; FixFJP; Push(LUJP); SeqOfStmts; Pop(LUJP); end; until flag; T0 := KEND; TstToken_GetNext; T0 := KIF; TstToken_GetNext; T2 := CP; WHILE LUJP<>0 do begin CP := LUJP; ReadWrd; LUJP := W; W := T2-CP-2; GenWord; end; CP := T2; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; 9: begin Getsym; Expr; IF (TY[TSP]<>TINT) AND (TY[TSP]<>TCHR) THEN Error(9); TSP := TSP - 1; W := PXJP; GenByte; X := CP; Push(X); GenWord; GenWord; GenWord; CASES := 0; LUJP := 0; T0 := KIS; TstToken_GetNext; repeat T0 := KWHEN; TstToken_GetNext; IF T=KOTHERS THEN begin flag := true; Getsym; X := -1; Push(X); T1 := 1; Four780; end ELSE begin T1 := 0; repeat flag := false; if T=kID then begin LookupID; TN := pCONST; IF (pTYPE=1) OR (pTYPE=2) THEN T := C; end; IF (T<>kCH) AND (T<>C) THEN Error(5); X := TN; Push(X); T1 := T1 + 1; Getsym; IF T=BAR THEN begin Getsym; flag := true; end; until not flag; Four780; end; until (T<>KWHEN) or flag; if not flag then begin Push(0); Push(0); X := 1; Push(X); CASES := CASES + 1; end; T0 := KEND; TstToken_GetNext; T0 := KCASE; TstToken_GetNext; T1 := SP - 4; T3 := 32767; T4 := -32767; FOR I:=1 TO CASES-1 do begin T2 := S[T1]; T1 := T1 - 2; FOR J:=1 TO T2 do begin IF S[T1]<T3 THEN T3 := S[T1]; IF S[T1]>T4 THEN T4 := S[T1]; T1 := T1 - 1; end; end; W := PUJP; GenByte; T5 := CP; Pop(X); Pop(T1); Pop(X); IF X=-1 THEN begin W := T1 - CP - 2; GenWord; end ELSE begin W := LUJP; LUJP := CP; GenWord; end; FOR I:=T3 TO T4 do begin { *** build table } W := T5 - CP - 3; GenWord; end; T7 := CP; FOR I:=1 TO CASES-1 do begin Pop(T2); Pop(T6); FOR T8:=1 TO T2 do begin Pop(X); CP := T5 + (X-T3)*2 + 2; W := T6 - CP - 2; GenWord; end; end; CP := T7; Pop(X); T2 := CP; CP := X; W := T3; GenWord; W := T4; GenWord; W := T5 - CP - 2; GenWord; WHILE LUJP<>0 do begin CP := LUJP; ReadWrd; LUJP := W; W := T2 - CP - 2; GenWord; end; CP := T2; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; 10: begin GetSym; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; 11: begin LookupID; IF KIND<>2 THEN begin X := pTYPE; Push(X); LDAdr; Getsym; if KIND=1 then begin X := OBJSZ; Push(X); T0 := LP; TstToken_GetNext; Expr; CheckInt; Pop(X); if X=2 then W := PIND else begin W := PIXA; GenByte; W := X; end; GenByte; T0 := RP; TstToken_GetNext; end; T0 := COLONEQ; TstToken_GetNext; Expr; Pop(X); IF (X<>TY[TSP]) and ((X<>TINT) or (TY[TSP]<>TBOL)) and ((X<>TBOL) or (TY[TSP]<>TINT)) THEN Error(9); IF X=TSTR THEN W := PSAS ELSE W := PSTO; TSP := TSP - 1; GenByte; IF T=SEMICOLON THEN Getsym ELSE expected(13); end ELSE begin Push(ADDR); X := LEX; Push(X); Getsym; IF T<>SEMICOLON THEN begin T0 :=LP; TstToken_GetNext; ActualParam; T0 := RP; TstToken_GetNext; end; CallProc; IF T=SEMICOLON THEN Getsym ELSE expected(13); end; end; 12: Pragma; end; end; end; Procedure Stmt; begin T0 := KBEGIN; TstToken_GetNext; SeqOfStmts; T0 := KEND; TstToken_GetNext; end; Procedure BodyPart; { 2440 '********** BodyPart } begin IF pos(TT,DECLPARTx)<>0 THEN declpart; CB := GC; CP := 0; Stmt; end; Procedure Compilation; { 1970 '********** Compilation } begin Pragma; IF T=KPROC THEN begin Getsym; ParseProc; T0 := SEMICOLON; TestToken; end; end; Procedure Read_data; { 1780 '********** Read Data } var temp : integer; t_str : anystring; data : text; Function GetInt(var work : anystring): integer; var W,X,Y : integer; begin W := pos(',',work); if (W=1) or (work='') then X := 0 else if W=0 then begin val(work,X,Y); W := length(work) end else begin val(copy(work,1,W-1),X,Y); if Y<>0 then X := 0; end; GetInt := X; delete(work,1,W); end; begin Sym_str := ' '; CH := ' '; TT := ' '; ID := ' '; Buf := ' '; B_ptr := 0; T := 0; T0 := 0; SP := 0; TSP := 0; OFST := 0; CP := 0; CB := 0; W := 0; R1 := 0; R2 := 0; T3 := 0; LOC1 := 0; LOC2 := 0; TN := 0; HASH := 0; T1 := 0; T2 := 0; SSP := 1; s_str[ssp] := ''; for I:=1 to 128 do D[I] := ' '; FOR I:=0 TO MB do begin buffer[I] := D; B[I] := 0; end; assign(data,'keywords.txt'); reset(data); Lp_Str := ''; readln(data); readln(data,t_str); WHILE T_str>'0' do begin while t_str>'' do begin if t_str[1]=',' then begin LP_str := LP_str + chr(temp); temp := 0; end else temp := temp * 10 + ord(t_str[1]) - 48; delete(t_str,1,1); end; lp_str := lp_str + chr(temp); temp := 0; readln(data,t_str); end; for I:=1 to 5 do readln(data); FOR I:=1 TO 26 do begin readln(data,t_str); val(t_str,MAP[I],temp); end; I := 1; repeat readln(data,t_str); temp := pos(',',t_str); ID := copy(t_str,1,temp-1); delete(t_str,1,temp); IF ID<>'*END*' THEN begin ID := ID + copy(SPACEs,1,8-LENgth(ID)); pTYPE := GetInt(t_str); KIND := GetInt(t_str); PINFO := GetInt(t_str); pCONST := GetInt(t_str); OBJSZ := GetInt(t_str); ADDR := GetInt(t_str); LL := GetInt(t_str); AddID; END until ID='*END*'; while not EOF(DATA) do BEGIN READln(DATA,t_str); IF LENGTH(T_str)>8 THEN T_str := copy(t_str,1,8); T_str := T_str + copy(spaces,1,8-LENgth(T_str)); KEYWD[I] := T_str; I := I + 1; end; CLOSE(data); KEYWD[0] := ' '; KEYWD[NKEY] := ' '; end; BEGIN lexch := Alf + Dig + ' @*+=-<>/:;' + #39 + ')(,".#!' + #3 + #96 + #9; spaces := ''; for I:=1 to 51 do spaces := spaces + ' ';{255 spaces} for I:=2 to 4 do isopen[I] := false; for I:=1 to 128 do null_rec[i] := #0; clst := true; plst := false; clrscr; writeln('Augusta(tm) Compiler v1.1A'); writeln('(C) Copyright 1983 by Computer Linguistics'); writeln('All rights reserved.'); writeln(CrLf,'Initializing ...'); Read_Data; SI := 1; LN := 0; EOI := false; LL := 0; CPROC := 0; PROC := 0; GC := 1920; LPFLG := 0; write(CrLf,'Source file ? '); readln(Sym_str); Open_Source; write('Code file ? '); readln(C_str); assign(One,C_str); rewrite(One); R0 := 16; M0 := R0; write('Listing (Y,<N>)? '); readln(sym_str); sym_str := sym_str + ' '; IF upcase(sym_str[1])='Y' THEN begin PLST := true; write(Lst,LP_str); end; GetLine; Getsym; Compilation; seek(One,R0-1); write(One,D); sym_str := mki(GC) + mki(M0) + MKI(PROC) + mki(0) + MKI(1113); D := null_rec; for I:=1 to 10 do D[I] := sym_str[i]; seek(One,0); write(One,D); FOR I:=1 TO MB do IF (B[I]<>0) AND (B[I]<>R0) THEN begin seek(one,B[I]-1); write(one,buffer[i]); end; CLOSE(one); writeln(CrLf,'Compiled OK'); writeln(LN,' lines. ',GC-1920,' bytes.'); END.