freebsd-skq/usr.bin/f2c/gram.dcl
Joerg Wunsch c3ad4b4583 Update to the most recent version. Among other things, this also solves
the function naming problem for complex double function i've recently
aksed for in -committers.  (The recently committed rev 1.5 of proc.c
was actually also part of this update.)

Should the mailing lists come to an agreement that f2c better belongs
into the ports, this could be done nevertheless.  For the time being,
we've at least got a current version now.

Thanks, Steve!

Submitted by:	Steve Kargl <sgk@troutmask.apl.washington.edu>
1999-02-03 17:23:49 +00:00

417 lines
8.3 KiB
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spec: dcl
| common
| external
| intrinsic
| equivalence
| data
| implicit
| namelist
| SSAVE
{ NO66("SAVE statement");
saveall = YES; }
| SSAVE savelist
{ NO66("SAVE statement"); }
| SFORMAT
{ fmtstmt(thislabel); setfmt(thislabel); }
| SPARAM in_dcl SLPAR paramlist SRPAR
{ NO66("PARAMETER statement"); }
;
dcl: type opt_comma name in_dcl new_dcl dims lengspec
{ settype($3, $1, $7);
if(ndim>0) setbound($3,ndim,dims);
}
| dcl SCOMMA name dims lengspec
{ settype($3, $1, $5);
if(ndim>0) setbound($3,ndim,dims);
}
| dcl SSLASHD datainit vallist SSLASHD
{ if (new_dcl == 2) {
err("attempt to give DATA in type-declaration");
new_dcl = 1;
}
}
;
new_dcl: { new_dcl = 2; } ;
type: typespec lengspec
{ varleng = $2; }
;
typespec: typename
{ varleng = ($1<0 || ONEOF($1,M(TYLOGICAL)|M(TYLONG))
? 0 : typesize[$1]);
vartype = $1; }
;
typename: SINTEGER { $$ = TYLONG; }
| SREAL { $$ = tyreal; }
| SCOMPLEX { ++complex_seen; $$ = tycomplex; }
| SDOUBLE { $$ = TYDREAL; }
| SDCOMPLEX { ++dcomplex_seen; NOEXT("DOUBLE COMPLEX statement"); $$ = TYDCOMPLEX; }
| SLOGICAL { $$ = TYLOGICAL; }
| SCHARACTER { NO66("CHARACTER statement"); $$ = TYCHAR; }
| SUNDEFINED { $$ = TYUNKNOWN; }
| SDIMENSION { $$ = TYUNKNOWN; }
| SAUTOMATIC { NOEXT("AUTOMATIC statement"); $$ = - STGAUTO; }
| SSTATIC { NOEXT("STATIC statement"); $$ = - STGBSS; }
| SBYTE { $$ = TYINT1; }
;
lengspec:
{ $$ = varleng; }
| SSTAR intonlyon expr intonlyoff
{
expptr p;
p = $3;
NO66("length specification *n");
if( ! ISICON(p) || p->constblock.Const.ci <= 0 )
{
$$ = 0;
dclerr("length must be a positive integer constant",
NPNULL);
}
else {
if (vartype == TYCHAR)
$$ = p->constblock.Const.ci;
else switch((int)p->constblock.Const.ci) {
case 1: $$ = 1; break;
case 2: $$ = typesize[TYSHORT]; break;
case 4: $$ = typesize[TYLONG]; break;
case 8: $$ = typesize[TYDREAL]; break;
case 16: $$ = typesize[TYDCOMPLEX]; break;
default:
dclerr("invalid length",NPNULL);
$$ = varleng;
}
}
}
| SSTAR intonlyon SLPAR SSTAR SRPAR intonlyoff
{ NO66("length specification *(*)"); $$ = -1; }
;
common: SCOMMON in_dcl var
{ incomm( $$ = comblock("") , $3 ); }
| SCOMMON in_dcl comblock var
{ $$ = $3; incomm($3, $4); }
| common opt_comma comblock opt_comma var
{ $$ = $3; incomm($3, $5); }
| common SCOMMA var
{ incomm($1, $3); }
;
comblock: SCONCAT
{ $$ = comblock(""); }
| SSLASH SNAME SSLASH
{ $$ = comblock(token); }
;
external: SEXTERNAL in_dcl name
{ setext($3); }
| external SCOMMA name
{ setext($3); }
;
intrinsic: SINTRINSIC in_dcl name
{ NO66("INTRINSIC statement"); setintr($3); }
| intrinsic SCOMMA name
{ setintr($3); }
;
equivalence: SEQUIV in_dcl equivset
| equivalence SCOMMA equivset
;
equivset: SLPAR equivlist SRPAR
{
struct Equivblock *p;
if(nequiv >= maxequiv)
many("equivalences", 'q', maxequiv);
p = & eqvclass[nequiv++];
p->eqvinit = NO;
p->eqvbottom = 0;
p->eqvtop = 0;
p->equivs = $2;
}
;
equivlist: lhs
{ $$=ALLOC(Eqvchain);
$$->eqvitem.eqvlhs = primchk($1);
}
| equivlist SCOMMA lhs
{ $$=ALLOC(Eqvchain);
$$->eqvitem.eqvlhs = primchk($3);
$$->eqvnextp = $1;
}
;
data: SDATA in_data datalist
| data opt_comma datalist
;
in_data:
{ if(parstate == OUTSIDE)
{
newproc();
startproc(ESNULL, CLMAIN);
}
if(parstate < INDATA)
{
enddcl();
parstate = INDATA;
datagripe = 1;
}
}
;
datalist: datainit datavarlist SSLASH datapop vallist SSLASH
{ ftnint junk;
if(nextdata(&junk) != NULL)
err("too few initializers");
frdata($2);
frrpl();
}
;
datainit: /* nothing */ { frchain(&datastack); curdtp = 0; } ;
datapop: /* nothing */ { pop_datastack(); } ;
vallist: { toomanyinit = NO; } val
| vallist SCOMMA val
;
val: value
{ dataval(ENULL, $1); }
| simple SSTAR value
{ dataval($1, $3); }
;
value: simple
| addop simple
{ if( $1==OPMINUS && ISCONST($2) )
consnegop((Constp)$2);
$$ = $2;
}
| complex_const
;
savelist: saveitem
| savelist SCOMMA saveitem
;
saveitem: name
{ int k;
$1->vsave = YES;
k = $1->vstg;
if( ! ONEOF(k, M(STGUNKNOWN)|M(STGBSS)|M(STGINIT)) )
dclerr("can only save static variables", $1);
}
| comblock
;
paramlist: paramitem
| paramlist SCOMMA paramitem
;
paramitem: name SEQUALS expr
{ if($1->vclass == CLUNKNOWN)
make_param((struct Paramblock *)$1, $3);
else dclerr("cannot make into parameter", $1);
}
;
var: name dims
{ if(ndim>0) setbound($1, ndim, dims); }
;
datavar: lhs
{ Namep np;
struct Primblock *pp = (struct Primblock *)$1;
int tt = $1->tag;
if (tt != TPRIM) {
if (tt == TCONST)
err("parameter in data statement");
else
erri("tag %d in data statement",tt);
$$ = 0;
err_lineno = lineno;
break;
}
np = pp -> namep;
vardcl(np);
if ((pp->fcharp || pp->lcharp)
&& (np->vtype != TYCHAR || np->vdim && !pp->argsp))
sserr(np);
if(np->vstg == STGCOMMON)
extsymtab[np->vardesc.varno].extinit = YES;
else if(np->vstg==STGEQUIV)
eqvclass[np->vardesc.varno].eqvinit = YES;
else if(np->vstg!=STGINIT && np->vstg!=STGBSS) {
errstr(np->vstg == STGARG
? "Dummy argument \"%.60s\" in data statement."
: "Cannot give data to \"%.75s\"",
np->fvarname);
$$ = 0;
err_lineno = lineno;
break;
}
$$ = mkchain((char *)$1, CHNULL);
}
| SLPAR datavarlist SCOMMA dospec SRPAR
{ chainp p; struct Impldoblock *q;
pop_datastack();
q = ALLOC(Impldoblock);
q->tag = TIMPLDO;
(q->varnp = (Namep) ($4->datap))->vimpldovar = 1;
p = $4->nextp;
if(p) { q->implb = (expptr)(p->datap); p = p->nextp; }
if(p) { q->impub = (expptr)(p->datap); p = p->nextp; }
if(p) { q->impstep = (expptr)(p->datap); }
frchain( & ($4) );
$$ = mkchain((char *)q, CHNULL);
q->datalist = hookup($2, $$);
}
;
datavarlist: datavar
{ if (!datastack)
curdtp = 0;
datastack = mkchain((char *)curdtp, datastack);
curdtp = $1; curdtelt = 0;
}
| datavarlist SCOMMA datavar
{ $$ = hookup($1, $3); }
;
dims:
{ ndim = 0; }
| SLPAR dimlist SRPAR
;
dimlist: { ndim = 0; } dim
| dimlist SCOMMA dim
;
dim: ubound
{
if(ndim == maxdim)
err("too many dimensions");
else if(ndim < maxdim)
{ dims[ndim].lb = 0;
dims[ndim].ub = $1;
}
++ndim;
}
| expr SCOLON ubound
{
if(ndim == maxdim)
err("too many dimensions");
else if(ndim < maxdim)
{ dims[ndim].lb = $1;
dims[ndim].ub = $3;
}
++ndim;
}
;
ubound: SSTAR
{ $$ = 0; }
| expr
;
labellist: label
{ nstars = 1; labarray[0] = $1; }
| labellist SCOMMA label
{ if(nstars < maxlablist) labarray[nstars++] = $3; }
;
label: SICON
{ $$ = execlab( convci(toklen, token) ); }
;
implicit: SIMPLICIT in_dcl implist
{ NO66("IMPLICIT statement"); }
| implicit SCOMMA implist
;
implist: imptype SLPAR letgroups SRPAR
| imptype
{ if (vartype != TYUNKNOWN)
dclerr("-- expected letter range",NPNULL);
setimpl(vartype, varleng, 'a', 'z'); }
;
imptype: { needkwd = 1; } type
/* { vartype = $2; } */
;
letgroups: letgroup
| letgroups SCOMMA letgroup
;
letgroup: letter
{ setimpl(vartype, varleng, $1, $1); }
| letter SMINUS letter
{ setimpl(vartype, varleng, $1, $3); }
;
letter: SNAME
{ if(toklen!=1 || token[0]<'a' || token[0]>'z')
{
dclerr("implicit item must be single letter", NPNULL);
$$ = 0;
}
else $$ = token[0];
}
;
namelist: SNAMELIST
| namelist namelistentry
;
namelistentry: SSLASH name SSLASH namelistlist
{
if($2->vclass == CLUNKNOWN)
{
$2->vclass = CLNAMELIST;
$2->vtype = TYINT;
$2->vstg = STGBSS;
$2->varxptr.namelist = $4;
$2->vardesc.varno = ++lastvarno;
}
else dclerr("cannot be a namelist name", $2);
}
;
namelistlist: name
{ $$ = mkchain((char *)$1, CHNULL); }
| namelistlist SCOMMA name
{ $$ = hookup($1, mkchain((char *)$3, CHNULL)); }
;
in_dcl:
{ switch(parstate)
{
case OUTSIDE: newproc();
startproc(ESNULL, CLMAIN);
case INSIDE: parstate = INDCL;
case INDCL: break;
case INDATA:
if (datagripe) {
errstr(
"Statement order error: declaration after DATA",
CNULL);
datagripe = 0;
}
break;
default:
dclerr("declaration among executables", NPNULL);
}
}
;