From 55f277e77428d7423ae906a8e1f1324d35b07a7d Mon Sep 17 00:00:00 2001 From: Jakob Kaivo Date: Fri, 4 Mar 2022 12:32:20 -0500 Subject: import Miranda 2.066 from upstream --- new/rules.y | 1686 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1686 insertions(+) create mode 100644 new/rules.y (limited to 'new/rules.y') diff --git a/new/rules.y b/new/rules.y new file mode 100644 index 0000000..e44698b --- /dev/null +++ b/new/rules.y @@ -0,0 +1,1686 @@ +/* Miranda token declarations and syntax rules for "YACC" */ + +/************************************************************************** + * Copyright (C) Research Software Limited 1985-90. All rights reserved. * + * The Miranda system is distributed as free software under the terms in * + * the file "COPYING" which is included in the distribution. * + *------------------------------------------------------------------------*/ + +/* miranda symbols */ + +%token VALUE EVAL WHERE IF TO LEFTARROW COLONCOLON COLON2EQ + TYPEVAR NAME CNAME CONST DOLLAR2 OFFSIDE ELSEQ + ABSTYPE WITH DIAG EQEQ FREE INCLUDE EXPORT TYPE + OTHERWISE SHOWSYM PATHNAME BNF LEX ENDIR ERRORSY ENDSY + EMPTYSY READVALSY LEXDEF CHARCLASS ANTICHARCLASS LBEGIN + +%right ARROW +%right PLUSPLUS ':' MINUSMINUS +%nonassoc DOTDOT +%right VEL +%right '&' +%nonassoc '>' GE '=' NE LE '<' +%left '+' '-' +%left '*' '/' REM DIV +%right '^' +%left '.' /* fiddle to make '#' behave */ +%left '!' +%right INFIXNAME INFIXCNAME +%token CMBASE /* placeholder to start combinator values - see combs.h */ + +%{ +/* the following definition has to be kept in line with the token declarations + above */ +char *yysterm[]= { + 0, + "VALUE", + "EVAL", + "where", + "if", + "&>", + "<-", + "::", + "::=", + "TYPEVAR", + "NAME", + "CONSTRUCTOR-NAME", + "CONST", + "$$", + "OFFSIDE", + "OFFSIDE =", + "abstype", + "with", + "//", + "==", + "%free", + "%include", + "%export", + "type", + "otherwise", + "show", + "PATHNAME", + "%bnf", + "%lex", + "%%", + "error", + "end", + "empty", + "readvals", + "NAME", + "`char-class`", + "`char-class`", + "%%begin", + "->", + "++", + "--", + "..", + "\\/", + ">=", + "~=", + "<=", + "mod", + "div", + "$NAME", + "$CONSTRUCTOR"}; + +%} + +/* Miranda syntax rules */ +/* the associated semantic actions perform the compilation */ + +%{ +#include "data.h" +#include "lex.h" +extern word nill,k_i,Void; +extern word message,standardout; +extern word big_one; +#define isltmess_t(t) (islist_t(t)&&tl[t]==message) +#define isstring_t(t) (islist_t(t)&&tl[t]==char_t) +extern word SYNERR,errs,echoing,gvars; +extern word listdiff_fn,indent_fn,outdent_fn; +extern word polyshowerror; +word lastname=0; +word suppressids=NIL; +word idsused=NIL; +word tvarscope=0; +word includees=NIL,embargoes=NIL,exportfiles=NIL,freeids=NIL,exports=NIL; +word lexdefs=NIL,lexstates=NIL,inlex=0,inexplist=0; +word inbnf=0,col_fn=0,fnts=NIL,eprodnts=NIL,nonterminals=NIL,sreds=0; +word ihlist=0,ntspecmap=NIL,ntmap=NIL,lasth=0; +word obrct=0; + +void evaluate(x) +word x; +{ extern word debug; + word t; + t=type_of(x); + if(t==wrong_t)return; + lastexp=x; + x=codegen(x); + if(polyshowerror)return; + if(process()) + /* setup new process for each evaluation */ + { (void)signal(SIGINT,(sighandler)dieclean); + /* if interrupted will flush output etc before going */ + compiling=0; + resetgcstats(); + output(isltmess_t(t)?x: + cons(ap(standardout,isstring_t(t)?x + :ap(mkshow(0,0,t),x)),NIL)); + (void)signal(SIGINT,SIG_IGN);/* otherwise could do outstats() twice */ + putchar('\n'); + outstats(); + exit(0); } +} + +void obey(x) /* like evaluate but no fork, no stats, no extra '\n' */ +word x; +{ word t=type_of(x); + x=codegen(x); + if(polyshowerror)return; + compiling=0; + output(isltmess_t(t)?x: + cons(ap(standardout,isstring_t(t)?x:ap(mkshow(0,0,t),x)),NIL)); +} + +int isstring(x) +word x; +{ return(x==NILS||tag[x]==CONS&&is_char(hd[x])); +} + +word compose(x) /* used in compiling 'cases' */ +word x; +{ word y=hd[x]; + if(hd[y]==OTHERWISE)y=tl[y]; /* OTHERWISE was just a marker - lose it */ + else y=tag[y]==LABEL?label(hd[y],ap(tl[y],FAIL)): + ap(y,FAIL); /* if all guards false result is FAIL */ + x = tl[x]; + if(x!=NIL) + { while(tl[x]!=NIL)y=label(hd[hd[x]],ap(tl[hd[x]],y)), x=tl[x]; + y=ap(hd[x],y); + /* first alternative has no label - label of enclosing rhs applies */ + } + return(y); +} + +word starts(x) /* x is grammar rhs - returns list of nonterminals in start set */ +word x; +{ L: switch(tag[x]) + { case ID: return(cons(x,NIL)); + case LABEL: + case LET: + case LETREC: x=tl[x]; goto L; + case AP: switch(hd[x]) + { case G_SYMB: + case G_SUCHTHAT: + case G_RULE: return(NIL); + case G_OPT: + case G_FBSTAR: + case G_STAR: x=tl[x]; goto L; + default: if(hd[x]==outdent_fn) + { x=tl[x]; goto L; } + if(tag[hd[x]]==AP) + if(hd[hd[x]]==G_ERROR) + { x=tl[hd[x]]; goto L; } + if(hd[hd[x]]==G_SEQ) + { if(eprod(tl[hd[x]])) + return(UNION(starts(tl[hd[x]]),starts(tl[x]))); + x=tl[hd[x]]; goto L; } else + if(hd[hd[x]]==G_ALT) + return(UNION(starts(tl[hd[x]]),starts(tl[x]))); + else + if(hd[hd[x]]==indent_fn) + { x=tl[x]; goto L; } + } + default: return(NIL); + } +} + +int eprod(x) /* x is grammar rhs - does x admit empty production? */ +word x; +{ L: switch(tag[x]) + { case ID: return(member(eprodnts,x)); + case LABEL: + case LET: + case LETREC: x=tl[x]; goto L; + case AP: switch(hd[x]) + { case G_SUCHTHAT: + case G_ANY: + case G_SYMB: return(0); + case G_RULE: return(1); + case G_OPT: + case G_FBSTAR: + case G_STAR: return(1); + default: if(hd[x]==outdent_fn) + { x=tl[x]; goto L; } + if(tag[hd[x]]==AP) + if(hd[hd[x]]==G_ERROR) + { x=tl[hd[x]]; goto L; } + if(hd[hd[x]]==G_SEQ) + return(eprod(tl[hd[x]])&&eprod(tl[x])); else + if(hd[hd[x]]==G_ALT) + return(eprod(tl[hd[x]])||eprod(tl[x])); + else + if(hd[hd[x]]==indent_fn) + { x=tl[x]; goto L; } + } + default: return(x==G_STATE||x==G_UNIT); + /* G_END is special case, unclear whether it counts as an e-prodn. + decide no for now, sort this out later */ + } +} + +word add_prod(d,ps,hr) +word d,ps,hr; +{ word p,n=dlhs(d); + for(p=ps;p!=NIL;p=tl[p]) + if(dlhs(hd[p])==n) + if(dtyp(d)==undef_t&&dval(hd[p])==UNDEF) + { dval(hd[p])=dval(d); return(ps); } else + if(dtyp(d)!=undef_t&&dtyp(hd[p])==undef_t) + { dtyp(hd[p])=dtyp(d); return(ps); } + else + errs=hr, + printf( + "%ssyntax error: conflicting %s of nonterminal \"%s\"\n", + echoing?"\n":"", + dtyp(d)==undef_t?"definitions":"specifications", + get_id(n)), + acterror(); + return(cons(d,ps)); +} +/* clumsy - this algorithm is quadratic in number of prodns - fix later */ + +word getloc(nt,prods) /* get here info for nonterminal */ +word nt,prods; +{ while(prods!=NIL&&dlhs(hd[prods])!=nt)prods=tl[prods]; + if(prods!=NIL)return(hd[dval(hd[prods])]); + return(0); /* should not happen, but just in case */ +} + +void findnt(nt) /* set errs to here info of undefined nonterminal */ +word nt; +{ word p=ntmap; + while(p!=NIL&&hd[hd[p]]!=nt)p=tl[p]; + if(p!=NIL) + { errs=tl[hd[p]]; return; } + p=ntspecmap; + while(p!=NIL&&hd[hd[p]]!=nt)p=tl[p]; + if(p!=NIL)errs=tl[hd[p]]; +} + +#define isap2(fn,x) (tag[x]==AP&&tag[hd[x]]==AP&&hd[hd[x]]==(fn)) +#define firstsymb(term) tl[hd[term]] + +void binom(rhs,x) +/* performs the binomial optimisation on rhs of nonterminal x + x: x alpha1| ... | x alphaN | rest ||need not be in this order + ==> + x: rest (alpha1|...|alphaN)* +*/ +word rhs,x; +{ word *p= &tl[rhs]; /* rhs is of form label(hereinf, stuff) */ + word *lastp=0,*holdrhs,suffix,alpha=NIL; + if(tag[*p]==LETREC)p = &tl[*p]; /* ignore trailing `where defs' */ + if(isap2(G_ERROR,*p))p = &tl[hd[*p]]; + holdrhs=p; + while(isap2(G_ALT,*p)) + if(firstsymb(tl[hd[*p]])==x) + alpha=cons(tl[tl[hd[*p]]],alpha), + *p=tl[*p],p = &tl[*p]; + else lastp=p,p = &tl[tl[*p]]; + /* note each (G_ALT a b) except the outermost is labelled */ + if(lastp&&firstsymb(*p)==x) + alpha=cons(tl[*p],alpha), + *lastp=tl[hd[*lastp]]; + if(alpha==NIL)return; + suffix=hd[alpha],alpha=tl[alpha]; + while(alpha!=NIL) + suffix=ap2(G_ALT,hd[alpha],suffix), + alpha=tl[alpha]; + *holdrhs=ap2(G_SEQ,*holdrhs,ap(G_FBSTAR,suffix)); +} +/* should put some labels on the alpha's - fix later */ + +word getcol_fn() +{ extern char *dicp,*dicq; + if(!col_fn) + strcpy(dicp,"bnftokenindentation"), + dicq=dicp+20, + col_fn=name(); + return(col_fn); +} + +void startbnf() +{ ntspecmap=ntmap=nonterminals=NIL; + if(fnts==0)col_fn=0; /* reinitialise, a precaution */ +} + +word ih_abstr(x) /* abstract inherited attributes from grammar rule */ +word x; +{ word ih=ihlist; + while(ih!=NIL) /* relies on fact that ihlist is reversed */ + x=lambda(hd[ih],x),ih=tl[ih]; + return(x); +} + +int can_elide(x) /* is x of the form $1 applied to ih attributes in order? */ +word x; +{ word ih; + if(ihlist) + for(ih=ihlist;ih!=NIL&&tag[x]==AP;ih=tl[ih],x=hd[x]) + if(hd[ih]!=tl[x])return(0); + return(x==mkgvar(1)); +} + +int e_re(x) /* does regular expression x match empty string ? */ +{ L: if(tag[x]==AP) + { if(hd[x]==LEX_STAR||hd[x]==LEX_OPT)return(1); + if(hd[x]==LEX_STRING)return(tl[x]==NIL); + if(tag[hd[x]]!=AP)return(0); + if(hd[hd[x]]==LEX_OR) + { if(e_re(tl[hd[x]]))return(1); + x=tl[x]; goto L; } else + if(hd[hd[x]]==LEX_SEQ) + { if(!e_re(tl[hd[x]]))return(0); + x=tl[x]; goto L; } else + if(hd[hd[x]]==LEX_RCONTEXT) + { x=tl[hd[x]]; goto L; } + } + return(0); +} + +%} + +%% + +entity: /* the entity to be parsed is either a definition script or an + expression (the latter appearing as a command line) */ + + error| + + script + = { lastname=0; /* outstats(); */ }| + /* statistics not usually wanted after compilation */ + +/* MAGIC exp '\n' script + = { lastexp=$2; }| /* change to magic scripts 19.11.2013 */ + + VALUE exp + = { lastexp=$2; }| /* next line of `$+' */ + + EVAL exp + = { if(!SYNERR&&yychar==0) + { evaluate($2); } + }| + + EVAL exp COLONCOLON + /* boring problem - how to make sure no junk chars follow here? + likewise TO case -- trick used above doesn't work, yychar is + here always -1 Why? Too fiddly to bother with just now */ + = { word t=type_of($2); + if(t!=wrong_t) + { lastexp=$2; + if(tag[$2]==ID&&id_type($2)==wrong_t)t=wrong_t; + out_type(t); + putchar('\n'); } + }| + + EVAL exp TO + = { FILE *fil=NULL,*efil; + word t=type_of($2); + char *f=token(),*ef; + if(f)keep(f); ef=token(); /* wasteful of dic space, FIX LATER */ + if(f){ fil= fopen(f,$3?"a":"w"); + if(fil==NULL) + printf("cannot open \"%s\" for writing\n",f); } + else printf("filename missing after \"&>\"\n"); + if(ef) + { efil= fopen(ef,$3?"a":"w"); + if(efil==NULL) + printf("cannot open \"%s\" for writing\n",ef); } + if(t!=wrong_t)$2=codegen(lastexp=$2); + if(polyshowerror)return; + if(t!=wrong_t&&fil!=NULL&&(!ef||efil)) + { word pid;/* launch a concurrent process to perform task */ + sighandler oldsig; + oldsig=signal(SIGINT,SIG_IGN); /* ignore interrupts */ + if(pid=fork()) + { /* "parent" */ + if(pid==-1)perror("cannot create process"); + else printf("process %d\n",pid); + fclose(fil); + if(ef)fclose(efil); + (void)signal(SIGINT,oldsig); }else + { /* "child" */ + (void)signal(SIGQUIT,SIG_IGN); /* and quits */ +#ifndef SYSTEM5 + (void)signal(SIGTSTP,SIG_IGN); /* and stops */ +#endif + close(1); dup(fileno(fil)); /* subvert stdout */ + close(2); dup(fileno(ef?efil:fil)); /* subvert stderr */ + /* FUNNY BUG - if redirect stdout stderr to same file by two + calls to freopen, their buffers get conflated - whence do + by subverting underlying file descriptors, as above + (fix due to Martin Guy) */ + /* formerly used dup2, but not present in system V */ + fclose(stdin); + /* setbuf(stdout,NIL); + /* not safe to change buffering of stream already in use */ + /* freopen would have reset the buffering automatically */ + lastexp = NIL; /* what else should we set to NIL? */ + /*atcount= 1; */ + compiling= 0; + resetgcstats(); + output(isltmess_t(t)?$2: + cons(ap(standardout,isstring_t(t)?$2: + ap(mkshow(0,0,t),$2)),NIL)); + putchar('\n'); + outstats(); + exit(0); } } }; + +script: + /* empty */| + defs; + +exp: + op | /* will later suppress in favour of (op) in arg */ + e1; + +op: + '~' + = { $$ = NOT; }| + '#' + = { $$ = LENGTH; }| + diop; + +diop: + '-' + = { $$ = MINUS; }| + diop1; + +diop1: + '+' + = { $$ = PLUS; }| + PLUSPLUS + = { $$ = APPEND; }| + ':' + = { $$ = P; }| + MINUSMINUS + = { $$ = listdiff_fn; }| + VEL + = { $$ = OR; }| + '&' + = { $$ = AND; }| + relop | + '*' + = { $$ = TIMES; }| + '/' + = { $$ = FDIV; }| + DIV + = { $$ = INTDIV; }| + REM + = { $$ = MOD; }| + '^' + = { $$ = POWER; }| + '.' + = { $$ = B; }| + '!' + = { $$ = ap(C,SUBSCRIPT); }| + INFIXNAME| + INFIXCNAME; + +relop: + '>' + = { $$ = GR; }| + GE + = { $$ = GRE; }| + eqop + = { $$ = EQ; }| + NE + = { $$ = NEQ; }| + LE + = { $$ = ap(C,GRE); }| + '<' + = { $$ = ap(C,GR); }; + +eqop: + EQEQ| /* silently accept for benefit of Haskell users */ + '='; + +rhs: + cases WHERE ldefs + = { $$ = block($3,compose($1),0); }| + exp WHERE ldefs + = { $$ = block($3,$1,0); }| + exp| + cases + = { $$ = compose($1); }; + +cases: + exp ',' if exp + = { $$ = cons(ap2(COND,$4,$1),NIL); }| + exp ',' OTHERWISE + = { $$ = cons(ap(OTHERWISE,$1),NIL); }| + cases reindent ELSEQ alt + = { $$ = cons($4,$1); + if(hd[hd[$1]]==OTHERWISE) + syntax("\"otherwise\" must be last case\n"); }; + +alt: + here exp + = { errs=$1, + syntax("obsolete syntax, \", otherwise\" missing\n"); + $$ = ap(OTHERWISE,label($1,$2)); }| + here exp ',' if exp + = { $$ = label($1,ap2(COND,$5,$2)); }| + here exp ',' OTHERWISE + = { $$ = ap(OTHERWISE,label($1,$2)); }; + +if: + /* empty */ + = { extern word strictif; + if(strictif)syntax("\"if\" missing\n"); }| + IF; + +indent: + /* empty */ + = { if(!SYNERR){layout(); setlmargin();} + }; +/* note that because of yacc's one symbol look ahead, indent must usually be + invoked one symbol earlier than the non-terminal to which it applies + - see `production:' for an exception */ + +outdent: + separator + = { unsetlmargin(); }; + +separator: + OFFSIDE | ';' ; + +reindent: + /* empty */ + = { if(!SYNERR) + { unsetlmargin(); layout(); setlmargin(); } + }; + +liste: /* NB - returns list in reverse order */ + exp + = { $$ = cons($1,NIL); }| + liste ',' exp /* left recursive so as not to eat YACC stack */ + = { $$ = cons($3,$1); }; + +e1: + '~' e1 %prec '=' + = { $$ = ap(NOT,$2); }| + e1 PLUSPLUS e1 + = { $$ = ap2(APPEND,$1,$3); }| + e1 ':' e1 + = { $$ = cons($1,$3); }| + e1 MINUSMINUS e1 + = { $$ = ap2(listdiff_fn,$1,$3); }| + e1 VEL e1 + = { $$ = ap2(OR,$1,$3); }| + e1 '&' e1 + = { $$ = ap2(AND,$1,$3); }| + reln | + e2; + +es1: /* e1 or presection */ + '~' e1 %prec '=' + = { $$ = ap(NOT,$2); }| + e1 PLUSPLUS e1 + = { $$ = ap2(APPEND,$1,$3); }| + e1 PLUSPLUS + = { $$ = ap(APPEND,$1); }| + e1 ':' e1 + = { $$ = cons($1,$3); }| + e1 ':' + = { $$ = ap(P,$1); }| + e1 MINUSMINUS e1 + = { $$ = ap2(listdiff_fn,$1,$3); }| + e1 MINUSMINUS + = { $$ = ap(listdiff_fn,$1); }| + e1 VEL e1 + = { $$ = ap2(OR,$1,$3); }| + e1 VEL + = { $$ = ap(OR,$1); }| + e1 '&' e1 + = { $$ = ap2(AND,$1,$3); }| + e1 '&' + = { $$ = ap(AND,$1); }| + relsn | + es2; + +e2: + '-' e2 %prec '-' + = { $$ = ap(NEG,$2); }| + '#' e2 %prec '.' + = { $$ = ap(LENGTH,$2); }| + e2 '+' e2 + = { $$ = ap2(PLUS,$1,$3); }| + e2 '-' e2 + = { $$ = ap2(MINUS,$1,$3); }| + e2 '*' e2 + = { $$ = ap2(TIMES,$1,$3); }| + e2 '/' e2 + = { $$ = ap2(FDIV,$1,$3); }| + e2 DIV e2 + = { $$ = ap2(INTDIV,$1,$3); } | + e2 REM e2 + = { $$ = ap2(MOD,$1,$3); }| + e2 '^' e2 + = { $$ = ap2(POWER,$1,$3); } | + e2 '.' e2 + = { $$ = ap2(B,$1,$3); }| + e2 '!' e2 + = { $$ = ap2(SUBSCRIPT,$3,$1); }| + e3; + +es2: /* e2 or presection */ + '-' e2 %prec '-' + = { $$ = ap(NEG,$2); }| + '#' e2 %prec '.' + = { $$ = ap(LENGTH,$2); }| + e2 '+' e2 + = { $$ = ap2(PLUS,$1,$3); }| + e2 '+' + = { $$ = ap(PLUS,$1); }| + e2 '-' e2 + = { $$ = ap2(MINUS,$1,$3); }| + e2 '-' + = { $$ = ap(MINUS,$1); }| + e2 '*' e2 + = { $$ = ap2(TIMES,$1,$3); }| + e2 '*' + = { $$ = ap(TIMES,$1); }| + e2 '/' e2 + = { $$ = ap2(FDIV,$1,$3); }| + e2 '/' + = { $$ = ap(FDIV,$1); }| + e2 DIV e2 + = { $$ = ap2(INTDIV,$1,$3); } | + e2 DIV + = { $$ = ap(INTDIV,$1); } | + e2 REM e2 + = { $$ = ap2(MOD,$1,$3); }| + e2 REM + = { $$ = ap(MOD,$1); }| + e2 '^' e2 + = { $$ = ap2(POWER,$1,$3); } | + e2 '^' + = { $$ = ap(POWER,$1); } | + e2 '.' e2 + = { $$ = ap2(B,$1,$3); }| + e2 '.' + = { $$ = ap(B,$1); }| + e2 '!' e2 + = { $$ = ap2(SUBSCRIPT,$3,$1); }| + e2 '!' + = { $$ = ap2(C,SUBSCRIPT,$1); }| + es3; + +e3: + comb INFIXNAME e3 + = { $$ = ap2($2,$1,$3); }| + comb INFIXCNAME e3 + = { $$ = ap2($2,$1,$3); }| + comb; + +es3: /* e3 or presection */ + comb INFIXNAME e3 + = { $$ = ap2($2,$1,$3); }| + comb INFIXNAME + = { $$ = ap($2,$1); }| + comb INFIXCNAME e3 + = { $$ = ap2($2,$1,$3); }| + comb INFIXCNAME + = { $$ = ap($2,$1); }| + comb; + +comb: + comb arg + = { $$ = ap($1,$2); }| + arg; + +reln: + e2 relop e2 + = { $$ = ap2($2,$1,$3); }| + reln relop e2 + = { word subject; + subject = hd[hd[$1]]==AND?tl[tl[$1]]:tl[$1]; + $$ = ap2(AND,$1,ap2($2,subject,$3)); + }; /* EFFICIENCY PROBLEM - subject gets re-evaluated (and + retypechecked) - fix later */ + +relsn: /* reln or presection */ + e2 relop e2 + = { $$ = ap2($2,$1,$3); }| + e2 relop + = { $$ = ap($2,$1); }| + reln relop e2 + = { word subject; + subject = hd[hd[$1]]==AND?tl[tl[$1]]:tl[$1]; + $$ = ap2(AND,$1,ap2($2,subject,$3)); + }; /* EFFICIENCY PROBLEM - subject gets re-evaluated (and + retypechecked) - fix later */ + +arg: + { if(!SYNERR)lexstates=NIL,inlex=1; } + LEX lexrules ENDIR + = { inlex=0; lexdefs=NIL; + if(lexstates!=NIL) + { word echoed=0; + for(;lexstates!=NIL;lexstates=tl[lexstates]) + { if(!echoed)printf(echoing?"\n":""),echoed=1; + if(!(tl[hd[lexstates]]&1)) + printf("warning: lex state %s is never entered\n", + get_id(hd[hd[lexstates]])); else + if(!(tl[hd[lexstates]]&2)) + printf("warning: lex state %s has no associated rules\n", + get_id(hd[hd[lexstates]])); } + } + if($3==NIL)syntax("%lex with no rules\n"); + else tag[$3]=LEXER; + /* result is lex-list, in reverse order, of items of the form + cons(scstuff,cons(matcher,rhs)) + where scstuff is of the form + cons(0-or-list-of-startconditions,1+newstartcondition) + */ + $$ = $3; }| + NAME | + CNAME | + CONST | + READVALSY + = { $$ = readvals(0,0); }| + SHOWSYM + = { $$ = show(0,0); }| + DOLLAR2 + = { $$ = lastexp; + if(lastexp==UNDEF) + syntax("no previous expression to substitute for $$\n"); }| + '[' ']' + = { $$ = NIL; }| + '[' exp ']' + = { $$ = cons($2,NIL); }| + '[' exp ',' exp ']' + = { $$ = cons($2,cons($4,NIL)); }| + '[' exp ',' exp ',' liste ']' + = { $$ = cons($2,cons($4,reverse($6))); }| + '[' exp DOTDOT exp ']' + = { $$ = ap3(STEPUNTIL,big_one,$4,$2); }| + '[' exp DOTDOT ']' + = { $$ = ap2(STEP,big_one,$2); }| + '[' exp ',' exp DOTDOT exp ']' + = { $$ = ap3(STEPUNTIL,ap2(MINUS,$4,$2),$6,$2); }| + '[' exp ',' exp DOTDOT ']' + = { $$ = ap2(STEP,ap2(MINUS,$4,$2),$2); }| + '[' exp '|' qualifiers ']' + = { $$ = SYNERR?NIL:compzf($2,$4,0); }| + '[' exp DIAG qualifiers ']' + = { $$ = SYNERR?NIL:compzf($2,$4,1); }| + '(' op ')' /* RSB */ + = { $$ = $2; }| + '(' es1 ')' /* presection or parenthesised e1 */ + = { $$ = $2; }| + '(' diop1 e1 ')' /* postsection */ + = { $$ = (tag[$2]==AP&&hd[$2]==C)?ap(tl[$2],$3): /* optimisation */ + ap2(C,$2,$3); }| + '(' ')' + = { $$ = Void; }| /* the void tuple */ + '(' exp ',' liste ')' + = { if(tl[$4]==NIL)$$=pair($2,hd[$4]); + else { $$=pair(hd[tl[$4]],hd[$4]); + $4=tl[tl[$4]]; + while($4!=NIL)$$=tcons(hd[$4],$$),$4=tl[$4]; + $$ = tcons($2,$$); } + /* representation of the tuple (a1,...,an) is + tcons(a1,tcons(a2,...pair(a(n-1),an))) */ + }; + +lexrules: + lexrules lstart here re indent { if(!SYNERR)inlex=2; } + ARROW exp lpostfix { if(!SYNERR)inlex=1; } outdent + = { if($9<0 && e_re($4)) + errs=$3, + syntax("illegal lex rule - lhs matches empty\n"); + $$ = cons(cons(cons($2,1+$9),cons($4,label($3,$8))),$1); }| + lexdefs + = { $$ = NIL; }; + +lstart: + /* empty */ + = { $$ = 0; }| + '<' cnames '>' + = { word ns=NIL; + for(;$2!=NIL;$2=tl[$2]) + { word *x = &lexstates,i=1; + while(*x!=NIL&&hd[hd[*x]]!=hd[$2])i++,x = &tl[*x]; + if(*x == NIL)*x = cons(cons(hd[$2],2),NIL); + else tl[hd[*x]] |= 2; + ns = add1(i,ns); } + $$ = ns; }; + +cnames: + CNAME + = { $$=cons($1,NIL); }| + cnames CNAME + = { if(member($1,$2)) + printf("%ssyntax error: repeated name \"%s\" in start conditions\n", + echoing?"\n":"",get_id($2)), + acterror(); + $$ = cons($2,$1); }; + +lpostfix: + /* empty */ + = { $$ = -1; }| + LBEGIN CNAME + = { word *x = &lexstates,i=1; + while(*x!=NIL&&hd[hd[*x]]!=$2)i++,x = &tl[*x]; + if(*x == NIL)*x = cons(cons($2,1),NIL); + else tl[hd[*x]] |= 1; + $$ = i; + }| + LBEGIN CONST + = { if(!isnat($2)||get_word($2)!=0) + syntax("%begin not followed by IDENTIFIER or 0\n"); + $$ = 0; }; + +lexdefs: + lexdefs LEXDEF indent '=' re outdent + = { lexdefs = cons(cons($2,$5),lexdefs); }| + /* empty */ + = { lexdefs = NIL; }; + +re: /* regular expression */ + re1 '|' re + { $$ = ap2(LEX_OR,$1,$3); }| + re1; + +re1: + lterm '/' lterm + { $$ = ap2(LEX_RCONTEXT,$1,$3); }| + lterm '/' + { $$ = ap2(LEX_RCONTEXT,$1,0); }| + lterm; + +lterm: + lfac lterm + { $$ = ap2(LEX_SEQ,$1,$2); }| + lfac; + +lfac: + lunit '*' + { if(e_re($1)) + syntax("illegal regular expression - arg of * matches empty\n"); + $$ = ap(LEX_STAR,$1); }| + lunit '+' + { $$ = ap2(LEX_SEQ,$1,ap(LEX_STAR,$1)); }| + lunit '?' + { $$ = ap(LEX_OPT,$1); }| + lunit; + +lunit: + '(' re ')' + = { $$ = $2; }| + CONST + = { if(!isstring($1)) + printf("%ssyntax error - unexpected token \"", + echoing?"\n":""), + out(stdout,$1),printf("\" in regular expression\n"), + acterror(); + $$ = $1==NILS?ap(LEX_STRING,NIL): + tl[$1]==NIL?ap(LEX_CHAR,hd[$1]): + ap(LEX_STRING,$1); + }| + CHARCLASS + = { if($1==NIL) + syntax("empty character class `` cannot match\n"); + $$ = tl[$1]==NIL?ap(LEX_CHAR,hd[$1]):ap(LEX_CLASS,$1); }| + ANTICHARCLASS + = { $$ = ap(LEX_CLASS,cons(ANTICHARCLASS,$1)); }| + '.' + = { $$ = LEX_DOT; }| + name + = { word x=lexdefs; + while(x!=NIL&&hd[hd[x]]!=$1)x=tl[x]; + if(x==NIL) + printf( + "%ssyntax error: undefined lexeme %s in regular expression\n", + echoing?"\n":"", + get_id($1)), + acterror(); + else $$ = tl[hd[x]]; }; + +name: NAME|CNAME; + +qualifiers: + exp + = { $$ = cons(cons(GUARD,$1),NIL); }| + generator + = { $$ = cons($1,NIL); }| + qualifiers ';' generator + = { $$ = cons($3,$1); }| + qualifiers ';' exp + = { $$ = cons(cons(GUARD,$3),$1); }; + +generator: + e1 ',' generator + = { /* fix syntax to disallow patlist on lhs of iterate generator */ + if(hd[$3]==GENERATOR) + { word e=tl[tl[$3]]; + if(tag[e]==AP&&tag[hd[e]]==AP&& + (hd[hd[e]]==ITERATE||hd[hd[e]]==ITERATE1)) + syntax("ill-formed generator\n"); } + $$ = cons(REPEAT,cons(genlhs($1),$3)); idsused=NIL; }| + generator1; + +generator1: + e1 LEFTARROW exp + = { $$ = cons(GENERATOR,cons(genlhs($1),$3)); idsused=NIL; }| + e1 LEFTARROW exp ',' exp DOTDOT + = { word p = genlhs($1); idsused=NIL; + $$ = cons(GENERATOR, + cons(p,ap2(irrefutable(p)?ITERATE:ITERATE1, + lambda(p,$5),$3))); + }; + +defs: + def| + defs def; + +def: + v act2 indent '=' here rhs outdent + = { word l = $1, r = $6; + word f = head(l); + if(tag[f]==ID&&!isconstructor(f)) /* fnform defn */ + while(tag[l]==AP)r=lambda(tl[l],r),l=hd[l]; + r = label($5,r); /* to help locate type errors */ + declare(l,r),lastname=l; }| + + spec + = { word h=reverse(hd[$1]),hr=hd[tl[$1]],t=tl[tl[$1]]; + while(h!=NIL&&!SYNERR)specify(hd[h],t,hr),h=tl[h]; + $$ = cons(nill,NIL); }| + + ABSTYPE here typeforms indent WITH lspecs outdent + = { extern word TABSTRS; + extern char *dicp,*dicq; + word x=reverse($6),ids=NIL,tids=NIL; + while(x!=NIL&&!SYNERR) + specify(hd[hd[x]],cons(tl[tl[hd[x]]],NIL),hd[tl[hd[x]]]), + ids=cons(hd[hd[x]],ids),x=tl[x]; + /* each id in specs has its id_type set to const(t,NIL) as a way + of flagging that t is an abstract type */ + x=reverse($3); + while(x!=NIL&&!SYNERR) + { word shfn; + decltype(hd[x],abstract_t,undef_t,$2); + tids=cons(head(hd[x]),tids); + /* check for presence of showfunction */ + (void)strcpy(dicp,"show"); + (void)strcat(dicp,get_id(hd[tids])); + dicq = dicp+strlen(dicp)+1; + shfn=name(); + if(member(ids,shfn)) + t_showfn(hd[tids])=shfn; + x=tl[x]; } + TABSTRS = cons(cons(tids,ids),TABSTRS); + $$ = cons(nill,NIL); }| + + typeform indent act1 here EQEQ type act2 outdent + = { word x=redtvars(ap($1,$6)); + decltype(hd[x],synonym_t,tl[x],$4); + $$ = cons(nill,NIL); }| + + typeform indent act1 here COLON2EQ construction act2 outdent + = { word rhs = $6, r_ids = $6, n=0; + while(r_ids!=NIL)r_ids=tl[r_ids],n++; + while(rhs!=NIL&&!SYNERR) + { word h=hd[rhs],t=$1,stricts=NIL,i=0; + while(tag[h]==AP) + { if(tag[tl[h]]==AP&&hd[tl[h]]==strict_t) + stricts=cons(i,stricts),tl[h]=tl[tl[h]]; + t=ap2(arrow_t,tl[h],t),h=hd[h],i++; } + if(tag[h]==ID) + declconstr(h,--n,t); + /* warning - type not yet in reduced form */ + else { stricts=NIL; + if(echoing)putchar('\n'); + printf("syntax error: illegal construct \""); + out_type(hd[rhs]); + printf("\" on right of ::=\n"); + acterror(); } /* can this still happen? check later */ + if(stricts!=NIL) /* ! operators were present */ + { word k = id_val(h); + while(stricts!=NIL) + k=ap2(MKSTRICT,i-hd[stricts],k), + stricts=tl[stricts]; + id_val(h)=k; /* overwrite id_val of original constructor */ + } + r_ids=cons(h,r_ids); + rhs = tl[rhs]; } + if(!SYNERR)decltype($1,algebraic_t,r_ids,$4); + $$ = cons(nill,NIL); }| + + indent setexp EXPORT parts outdent + = { inexplist=0; + if(exports!=NIL) + errs=$2, + syntax("multiple %export statements are illegal\n"); + else { if($4==NIL&&exportfiles==NIL&&embargoes!=NIL) + exportfiles=cons(PLUS,NIL); + exports=cons($2,$4); } /* cons(hereinfo,identifiers) */ + $$ = cons(nill,NIL); }| + + FREE here '{' specs '}' + = { if(freeids!=NIL) + errs=$2, + syntax("multiple %free statements are illegal\n"); else + { word x=reverse($4); + while(x!=NIL&&!SYNERR) + { specify(hd[hd[x]],tl[tl[hd[x]]],hd[tl[hd[x]]]); + freeids=cons(head(hd[hd[x]]),freeids); + if(tl[tl[hd[x]]]==type_t) + t_class(hd[freeids])=free_t; + else id_val(hd[freeids])=FREE; /* conventional value */ + x=tl[x]; } + fil_share(hd[files])=0; /* parameterised scripts unshareable */ + freeids=alfasort(freeids); + for(x=freeids;x!=NIL;x=tl[x]) + hd[x]=cons(hd[x],cons(datapair(get_id(hd[x]),0), + id_type(hd[x]))); + /* each element of freeids is of the form + cons(id,cons(original_name,type)) */ + } + $$ = cons(nill,NIL); }| + + INCLUDE bindings modifiers outdent + /* fiddle - 'indent' done by yylex() on reading fileid */ + = { extern char *dicp; + extern word CLASHES,BAD_DUMP; + includees=cons(cons($1,cons($3,$2)),includees); + /* $1 contains file+hereinfo */ + $$ = cons(nill,NIL); }| + + here BNF { startbnf(); inbnf=1;} names outdent productions ENDIR + /* fiddle - `indent' done by yylex() while processing directive */ + = { word lhs=NIL,p=$6,subjects,body,startswith=NIL,leftrecs=NIL; + ihlist=inbnf=0; + nonterminals=UNION(nonterminals,$4); + for(;p!=NIL;p=tl[p]) + if(dval(hd[p])==UNDEF)nonterminals=add1(dlhs(hd[p]),nonterminals); + else lhs=add1(dlhs(hd[p]),lhs); + nonterminals=setdiff(nonterminals,lhs); + if(nonterminals!=NIL) + errs=$1, + member($4,hd[nonterminals])||findnt(hd[nonterminals]), + printf("%sfatal error in grammar, ",echoing?"\n":""), + printf("undefined nonterminal%s: ", + tl[nonterminals]==NIL?"":"s"), + printlist("",nonterminals), + acterror(); else + { /* compute list of nonterminals admitting empty prodn */ + eprodnts=NIL; + L:for(p=$6;p!=NIL;p=tl[p]) + if(!member(eprodnts,dlhs(hd[p]))&&eprod(dval(hd[p]))) + { eprodnts=cons(dlhs(hd[p]),eprodnts); goto L; } + /* now compute startswith reln between nonterminals + (performing binomial transformation en route) + and use to detect unremoved left recursion */ + for(p=$6;p!=NIL;p=tl[p]) + if(member(lhs=starts(dval(hd[p])),dlhs(hd[p]))) + binom(dval(hd[p]),dlhs(hd[p])), + startswith=cons(cons(dlhs(hd[p]),starts(dval(hd[p]))), + startswith); + else startswith=cons(cons(dlhs(hd[p]),lhs),startswith); + startswith=tclos(sortrel(startswith)); + for(;startswith!=NIL;startswith=tl[startswith]) + if(member(tl[hd[startswith]],hd[hd[startswith]])) + leftrecs=add1(hd[hd[startswith]],leftrecs); + if(leftrecs!=NIL) + errs=getloc(hd[leftrecs],$6), + printf("%sfatal error in grammar, ",echoing?"\n":""), + printlist("irremovable left recursion: ",leftrecs), + acterror(); + if($4==NIL) /* implied start symbol */ + $4=cons(dlhs(hd[lastlink($6)]),NIL); + fnts=1; /* fnts is flag indicating %bnf in use */ + if(tl[$4]==NIL) /* only one start symbol */ + subjects=getfname(hd[$4]), + body=ap2(G_CLOSE,str_conv(get_id(hd[$4])),hd[$4]); + else + { body=subjects=Void; + while($4!=NIL) + subjects=pair(getfname(hd[$4]),subjects), + body=pair( + ap2(G_CLOSE,str_conv(get_id(hd[$4])),hd[$4]), + body), + $4=tl[$4]; + } + declare(subjects,label($1,block($6,body, 0))); + }}; + +setexp: + here + = { $$=$1; + inexplist=1; }; /* hack to fix lex analyser */ + +bindings: + /* empty */ + = { $$ = NIL; }| + '{' bindingseq '}' + = { $$ = $2; }; + +bindingseq: + bindingseq binding + = { $$ = cons($2,$1); }| + binding + = { $$ = cons($1,NIL); }; + +binding: + NAME indent '=' exp outdent + = { $$ = cons($1,$4); }| + typeform indent act1 EQEQ type act2 outdent + = { word x=redtvars(ap($1,$5)); + word arity=0,h=hd[x]; + while(tag[h]==AP)arity++,h=hd[h]; + $$ = ap(h,make_typ(arity,0,synonym_t,tl[x])); + }; + +modifiers: + /* empty */ + = { $$ = NIL; }| + negmods + = { word a,b,c=0; + for(a=$1;a!=NIL;a=tl[a]) + for(b=tl[a];b!=NIL;b=tl[b]) + { if(hd[hd[a]]==hd[hd[b]])c=hd[hd[a]]; + if(tl[hd[a]]==tl[hd[b]])c=tl[hd[a]]; + if(c)break; } + if(c)printf( + "%ssyntax error: conflicting aliases (\"%s\")\n", + echoing?"\n":"", + get_id(c)), + acterror(); + }; + +negmods: + negmods negmod + = { $$ = cons($2,$1); }| + negmod + = { $$ = cons($1,NIL); }; + +negmod: + NAME '/' NAME + = { $$ = cons($1,$3); }| + CNAME '/' CNAME + = { $$ = cons($1,$3); }| + '-' NAME + = { $$ = cons(make_pn(UNDEF),$2); }/*| + '-' CNAME */; /* no - cannot suppress constructors selectively */ + +here: + /* empty */ + = { extern word line_no; + lasth = $$ = fileinfo(get_fil(current_file),line_no); + /* (script,line_no) for diagnostics */ + }; + +act1: + /* empty */ + = { tvarscope=1; }; + +act2: + /* empty */ + = { tvarscope=0; idsused= NIL; }; + +ldefs: + ldef + = { $$ = cons($1,NIL); + dval($1) = tries(dlhs($1),cons(dval($1),NIL)); + if(!SYNERR&&get_ids(dlhs($1))==NIL) + errs=hd[hd[tl[dval($1)]]], + syntax("illegal lhs for local definition\n"); + }| + ldefs ldef + = { if(dlhs($2)==dlhs(hd[$1]) /*&&dval(hd[$1])!=UNDEF*/) + { $$ = $1; + if(!fallible(hd[tl[dval(hd[$1])]])) + errs=hd[dval($2)], + printf("%ssyntax error: \ +unreachable case in defn of \"%s\"\n",echoing?"\n":"",get_id(dlhs($2))), + acterror(); + tl[dval(hd[$1])]=cons(dval($2),tl[dval(hd[$1])]); } + else if(!SYNERR) + { word ns=get_ids(dlhs($2)),hr=hd[dval($2)]; + if(ns==NIL) + errs=hr, + syntax("illegal lhs for local definition\n"); + $$ = cons($2,$1); + dval($2)=tries(dlhs($2),cons(dval($2),NIL)); + while(ns!=NIL&&!SYNERR) /* local nameclash check */ + { nclashcheck(hd[ns],$1,hr); + ns=tl[ns]; } + /* potentially quadratic - fix later */ + } + }; + +ldef: + spec + = { errs=hd[tl[$1]]; + syntax("`::' encountered in local defs\n"); + $$ = cons(nill,NIL); }| + typeform here EQEQ + = { errs=$2; + syntax("`==' encountered in local defs\n"); + $$ = cons(nill,NIL); }| + typeform here COLON2EQ + = { errs=$2; + syntax("`::=' encountered in local defs\n"); + $$ = cons(nill,NIL); }| + v act2 indent '=' here rhs outdent + = { word l = $1, r = $6; + word f = head(l); + if(tag[f]==ID&&!isconstructor(f)) /* fnform defn */ + while(tag[l]==AP)r=lambda(tl[l],r),l=hd[l]; + r = label($5,r); /* to help locate type errors */ + $$ = defn(l,undef_t,r); }; + +vlist: + v + = { $$ = cons($1,NIL); }| + vlist ',' v /* left recursive so as not to eat YACC stack */ + = { $$ = cons($3,$1); }; /* reverse order, NB */ + +v: + v1 | + v1 ':' v + = { $$ = cons($1,$3); }; + +v1: + v1 '+' CONST /* n+k pattern */ + = { if(!isnat($3)) + syntax("inappropriate use of \"+\" in pattern\n"); + $$ = ap2(PLUS,$3,$1); }| + '-' CONST + = { /* if(tag[$2]==DOUBLE) + $$ = cons(CONST,sto_dbl(-get_dbl($2))); else */ + if(tag[$2]==INT) + $$ = cons(CONST,bignegate($2)); else + syntax("inappropriate use of \"-\" in pattern\n"); }| + v2 INFIXNAME v1 + = { $$ = ap2($2,$1,$3); }| + v2 INFIXCNAME v1 + = { $$ = ap2($2,$1,$3); }| + v2; + +v2: + v3 | + v2 v3 + = { $$ = ap(hd[$1]==CONST&&tag[tl[$1]]==ID?tl[$1]:$1,$2); }; + /* repeated name apparatus may have wrapped CONST around leading id + - not wanted */ + +v3: + NAME + = { if(sreds&&member(gvars,$1))syntax("illegal use of $num symbol\n"); + /* cannot use grammar variable in a binding position */ + if(memb(idsused,$1))$$ = cons(CONST,$1); + /* picks up repeated names in a template */ + else idsused= cons($1,idsused); } | + CNAME | + CONST + = { if(tag[$1]==DOUBLE) + syntax("use of floating point literal in pattern\n"); + $$ = cons(CONST,$1); }| + '[' ']' + = { $$ = nill; }| + '[' vlist ']' + = { word x=$2,y=nill; + while(x!=NIL)y = cons(hd[x],y), x = tl[x]; + $$ = y; }| + '(' ')' + = { $$ = Void; }| + '(' v ')' + = { $$ = $2; }| + '(' v ',' vlist ')' + = { if(tl[$4]==NIL)$$=pair($2,hd[$4]); + else { $$=pair(hd[tl[$4]],hd[$4]); + $4=tl[tl[$4]]; + while($4!=NIL)$$=tcons(hd[$4],$$),$4=tl[$4]; + $$ = tcons($2,$$); } + /* representation of the tuple (a1,...,an) is + tcons(a1,tcons(a2,...pair(a(n-1),an))) */ + }; + +type: + type1 | + type ARROW type + = { $$ = ap2(arrow_t,$1,$3); }; + +type1: + type2 INFIXNAME type1 + = { $$ = ap2($2,$1,$3); }| + type2; + +type2: + /* type2 argtype /* too permissive - fix later */ + /* = { $$ = ap($1,$2); }| */ + tap| + argtype; + +tap: + NAME argtype + = { $$ = ap($1,$2); }| + tap argtype + = { $$ = ap($1,$2); }; + +argtype: + NAME + = { $$ = transtypeid($1); }| + /* necessary while prelude not meta_tchecked (for prelude)*/ + typevar + = { if(tvarscope&&!memb(idsused,$1)) + printf("%ssyntax error: unbound type variable ",echoing?"\n":""), + out_type($1),putchar('\n'),acterror(); + $$ = $1; }| + '(' typelist ')' + = { $$ = $2; }| + '[' type ']' /* at release one was `typelist' */ + = { $$ = ap(list_t,$2); }| + '[' type ',' typel ']' + = { syntax( + "tuple-type with missing parentheses (obsolete syntax)\n"); }; + +typelist: + /* empty */ + = { $$ = void_t; }| /* voidtype */ + type | + type ',' typel + = { word x=$3,y=void_t; + while(x!=NIL)y = ap2(comma_t,hd[x],y), x = tl[x]; + $$ = ap2(comma_t,$1,y); }; + +typel: + type + = { $$ = cons($1,NIL); }| + typel ',' type /* left recursive so as not to eat YACC stack */ + = { $$ = cons($3,$1); }; + +parts: /* returned in reverse order */ + parts NAME + = { $$ = add1($2,$1); }| + parts '-' NAME + = { $$ = $1; embargoes=add1($3,embargoes); }| + parts PATHNAME + = { $$ = $1; }| /*the pathnames are placed on exportfiles in yylex*/ + parts '+' + = { $$ = $1; + exportfiles=cons(PLUS,exportfiles); }| + NAME + = { $$ = add1($1,NIL); }| + '-' NAME + = { $$ = NIL; embargoes=add1($2,embargoes); }| + PATHNAME + = { $$ = NIL; }| + '+' + = { $$ = NIL; + exportfiles=cons(PLUS,exportfiles); }; + +specs: /* returns a list of cons(id,cons(here,type)) + in reverse order of appearance */ + specs spec + = { word x=$1,h=hd[$2],t=tl[$2]; + while(h!=NIL)x=cons(cons(hd[h],t),x),h=tl[h]; + $$ = x; }| + spec + = { word x=NIL,h=hd[$1],t=tl[$1]; + while(h!=NIL)x=cons(cons(hd[h],t),x),h=tl[h]; + $$ = x; }; + +spec: + typeforms indent here COLONCOLON ttype outdent + = { $$ = cons($1,cons($3,$5)); }; + /* hack: `typeforms' includes `namelist' */ + +lspecs: /* returns a list of cons(id,cons(here,type)) + in reverse order of appearance */ + lspecs lspec + = { word x=$1,h=hd[$2],t=tl[$2]; + while(h!=NIL)x=cons(cons(hd[h],t),x),h=tl[h]; + $$ = x; }| + lspec + = { word x=NIL,h=hd[$1],t=tl[$1]; + while(h!=NIL)x=cons(cons(hd[h],t),x),h=tl[h]; + $$ = x; }; + +lspec: + namelist indent here {inbnf=0;} COLONCOLON type outdent + = { $$ = cons($1,cons($3,$6)); }; + +namelist: + NAME ',' namelist + = { $$ = cons($1,$3); }| + NAME + = { $$ = cons($1,NIL); }; + +typeforms: + typeforms ',' typeform act2 + = { $$ = cons($3,$1); }| + typeform act2 + = { $$ = cons($1,NIL); }; + +typeform: + CNAME typevars + = { syntax("upper case identifier out of context\n"); }| + NAME typevars /* warning if typevar is repeated */ + = { $$ = $1; + idsused=$2; + while($2!=NIL) + $$ = ap($$,hd[$2]),$2 = tl[$2]; + }| + typevar INFIXNAME typevar + = { if(eqtvar($1,$3)) + syntax("repeated type variable in typeform\n"); + idsused=cons($1,cons($3,NIL)); + $$ = ap2($2,$1,$3); }| + typevar INFIXCNAME typevar + = { syntax("upper case identifier cannot be used as typename\n"); }; + +ttype: + type| + TYPE + = { $$ = type_t; }; + +typevar: + '*' + = { $$ = mktvar(1); }| + TYPEVAR; + +typevars: + /* empty */ + = { $$ = NIL; }| + typevar typevars + = { if(memb($2,$1)) + syntax("repeated type variable on lhs of type def\n"); + $$ = cons($1,$2); }; + +construction: + constructs + = { extern word SGC; /* keeps track of sui-generis constructors */ + if( tl[$1]==NIL && tag[hd[$1]]!=ID ) + /* 2nd conjunct excludes singularity types */ + SGC=cons(head(hd[$1]),SGC); + }; + +constructs: + construct + = { $$ = cons($1,NIL); }| + constructs '|' construct + = { $$ = cons($3,$1); }; + +construct: + field here INFIXCNAME field + = { $$ = ap2($3,$1,$4); + id_who($3)=$2; }| + construct1; + +construct1: + '(' construct ')' + = { $$ = $2; }| + construct1 field1 + = { $$ = ap($1,$2); }| + here CNAME + = { $$ = $2; + id_who($2)=$1; }; + +field: + type| + argtype '!' + = { $$ = ap(strict_t,$1); }; + +field1: + argtype '!' + = { $$ = ap(strict_t,$1); }| + argtype; + +names: /* used twice - for bnf list, and for inherited attr list */ + /* empty */ + = { $$ = NIL; }| + names NAME + = { if(member($1,$2)) + printf("%ssyntax error: repeated identifier \"%s\" in %s list\n", + echoing?"\n":"",get_id($2),inbnf?"bnf":"attribute"), + acterror(); + $$ = inbnf?add1($2,$1):cons($2,$1); + }; + +productions: + lspec + = { word h=reverse(hd[$1]),hr=hd[tl[$1]],t=tl[tl[$1]]; + inbnf=1; + $$=NIL; + while(h!=NIL&&!SYNERR) + ntspecmap=cons(cons(hd[h],hr),ntspecmap), + $$=add_prod(defn(hd[h],t,UNDEF),$$,hr), + h=tl[h]; + }| + production + = { $$ = cons($1,NIL); }| + productions lspec + = { word h=reverse(hd[$2]),hr=hd[tl[$2]],t=tl[tl[$2]]; + inbnf=1; + $$=$1; + while(h!=NIL&&!SYNERR) + ntspecmap=cons(cons(hd[h],hr),ntspecmap), + $$=add_prod(defn(hd[h],t,UNDEF),$$,hr), + h=tl[h]; + }| + productions production + = { $$ = add_prod($2,$1,hd[dval($2)]); }; + +production: + NAME params ':' indent grhs outdent + /* found by experiment that indent must follow ':' here */ + = { $$ = defn($1,undef_t,$5); }; + +params: /* places inherited attributes, if any, on ihlist */ + /* empty */ + = { ihlist=0; }| + { inbnf=0; } '(' names ')' + = { inbnf=1; + if($3==NIL)syntax("unexpected token ')'\n"); + ihlist=$3; } + +grhs: + here phrase + = { $$ = label($1,$2); }; + +phrase: + error_term + = { $$ = ap2(G_ERROR,G_ZERO,$1); }| + phrase1 + = { $$=hd[$1], $1=tl[$1]; + while($1!=NIL) + $$=label(hd[$1],$$),$1=tl[$1], + $$=ap2(G_ALT,hd[$1],$$),$1=tl[$1]; + }| + phrase1 '|' error_term + = { $$=hd[$1], $1=tl[$1]; + while($1!=NIL) + $$=label(hd[$1],$$),$1=tl[$1], + $$=ap2(G_ALT,hd[$1],$$),$1=tl[$1]; + $$ = ap2(G_ERROR,$$,$3); }; + /* we right rotate G_ALT's to facilitate left factoring (see trans) */ + +phrase1: + term + = { $$=cons($1,NIL); }| + phrase1 '|' here term + = { $$ = cons($4,cons($3,$1)); }; + +term: + count_factors + = { word n=0,f=$1,rule=Void; + /* default value of a production is () */ + /* rule=mkgvar(sreds); /* formerly last symbol */ + if(f!=NIL&&hd[f]==G_END)sreds++; + if(ihlist)rule=ih_abstr(rule); + while(n0?"unmatched { in grammar rule\n": + "unmatched } in grammar rule\n"); + for(sreds=0;f!=NIL;f=tl[f])sreds++; + if(hd[$2]==G_END)sreds--; + $$ = $2; }; + +factors: + factor + = { $$ = cons($1,NIL); }| + factors factor + = { if(hd[$1]==G_END) + syntax("unexpected token after end\n"); + $$ = cons($2,$1); }; + +factor: + unit| + '{' unit '}' + = { $$ = ap(outdent_fn,ap2(indent_fn,getcol_fn(),$2)); }| + '{' unit + = { obrct++; + $$ = ap2(indent_fn,getcol_fn(),$2); }| + unit '}' + = { if(--obrct<0)syntax("unmatched `}' in grammar rule\n"); + $$ = ap(outdent_fn,$1); } ; + +unit: + symbol| + symbol '*' + = { $$ = ap(G_STAR,$1); }| + symbol '+' + = { $$ = ap2(G_SEQ,$1,ap2(G_SEQ,ap(G_STAR,$1),ap(G_RULE,ap(C,P)))); }| + symbol '?' + = { $$ = ap(G_OPT,$1); }; + +symbol: + NAME + = { extern word NEW; + nonterminals=newadd1($1,nonterminals); + if(NEW)ntmap=cons(cons($1,lasth),ntmap); }| + ENDSY + = { $$ = G_END; }| + CONST + = { if(!isstring($1)) + printf("%ssyntax error: illegal terminal ",echoing?"\n":""), + out(stdout,$1),printf(" (should be string-const)\n"), + acterror(); + $$ = ap(G_SYMB,$1); }| + '^' + = { $$=G_STATE; }| + {inbnf=0;} '[' exp {inbnf=1;} ']' + = { $$ = ap(G_SUCHTHAT,$3); }| + '-' + = { $$ = G_ANY; }; + +%% +/* end of MIRANDA RULES */ + -- cgit v1.2.1