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minix/commands/elle/ellec.c
Ben Gras d34ab6de9f commands: fix clang errors
2011-06-09 08:27:49 +02:00

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/* ELLEC - Copyright 1983 by Ken Harrenstien, SRI International
* This software is quasi-public; it may be used freely with
* like software, but may NOT be sold or made part of licensed
* products without permission of the author.
*/
/* ELLEC - ELLE Compiler
* Invoked with no arguments, acts as general ELLE compiler filter;
* reads ASCII profile input, and outputs a binary profile.
* Otherwise:
* -Profile Compiles user's profile.
* HOME/.ellepro.e -> HOME/.ellepro.bN (N = fmt version #)
* NOTE: on V6, "HOME/" is left out.
* -Pconf Outputs defprf.c for ELLE (accepts std in) (old -E)
* -Fconf Outputs eefdef.h for ELLE (accepts std in)
* -FXconf Outputs eefidx.h for ELLE (accepts std in)
* -CMconf Outputs config makefile for ELLE ( " )
* -CSconf arg Outputs config file using "arg" - for V6 config.v6 file.
* -Pdump Outputs defprf.e user profile (old -P)
* -Fdump Outputs deffun.e
*/
#if 0
The ASCII profile file associates command chars with functions.
It is simply a series of lisp-like expressions of the form
(keybind <char spec> <fun spec>)
e.g. (keybind "C-Y" "Yank Pop")
Command char specification:
Allowed prefixes:
<ch> The char itself
C- Controlify (zap bits 140)
^<ch> Ditto
M- Meta (add bit 200) - case ignored
X- Extended (add bit) - case ignored
To quote a char or char spec, use quoted-string syntax.
Function name specification:
Function names are specified by quoted strings containing the entire
long-form ASCII function name. Matching is done case-independently.
#endif /*COMMENT*/
#include "eesite.h" /* Site specific stuff if any */
#include <stdio.h>
#include <ctype.h>
#include <unistd.h>
#include "eeprof.h" /* Profile structure definition */
#define EFUNMAX 400 /* Maximum # (+1) of functions that can be defined */
#define KBTSIZ (128*2) /* Initial size of key binding tables */
/* EFUN Function definition table.
** Functions that were copied from the pre-defined table will
** have a value of NULL in ef_mod.
*/
struct fun {
int ef_idx; /* Function index (same as index of entry) */
char *ef_name; /* Function name */
char *ef_adr; /* C routine name in ELLE */
char *ef_mod; /* Source module that C routine lives in */
};
struct fun efuntab[EFUNMAX];
int efxmax = 0; /* Largest function idx used */
int format_ver = PROF_VER; /* Current version # of binary profile fmt */
/* Keybind mapping tables. There are four separate tables:
** Simple character. Always 128 single-byte items, indexed by the simple
** command char. Each item is the corresponding function index.
** Meta char. Variable number of 2-byte items; first is a command char
** and second is its function index.
** Extended char. Same format as Meta char.
** Menu item (SUN only). Variable number of single-byte items, each
** a function index.
**
*/
char *chrptr; /* Pointer to simple-char table */
int chrsiz = 128; /* Current size of table */
int chrcnt = 0; /* # bytes actually used */
char *mtaptr; /* Pointer to meta-char table */
int mtasiz = KBTSIZ; /* Current size (twice the # of items) */
int mtacnt = 0; /* # bytes actually used */
char *extptr; /* Pointer to ext-char table */
int extsiz = KBTSIZ; /* Current size (twice the # of items) */
int extcnt = 0; /* # bytes actually used */
char *mnuptr; /* Pointer to menu-item table (SUN only) */
int mnusiz = KBTSIZ; /* Current size */
int mnucnt = 0; /* # bytes actually used */
#define CB_EXT 0400 /* "X-" prefix on command char */
#define CB_META 0200 /* "M-" prefix on command char */
/* Set up the pre-defined data areas. This includes the
** predefined function table plus the default profile (keyboard mappings).
** Note this only contains entries for ef_name and ef_adr.
*/
struct fun pdfuntab[] = { /* Pre-Defined Function table */
#define EFUN(rtn,rtnstr,name) 0, name, rtnstr, 0,
#define EFUNHOLE 0, 0, 0, 0,
#include "eefdef.h"
};
int npdfuns = sizeof(pdfuntab)/sizeof(struct fun); /* # of entries */
#include "defprf.c" /* Insert default profile mapping */
/* This defines charmap, metamap, and extmap. */
/* Stuff for feeble-minded list processor */
#define NIL ((struct lnode *)0)
#define LTRUE (&ltruenode)
#define LT_VAL 0
#define LT_STR 1
#define LT_LIST 2
#define LT_ATOM 3 /* Should use this later instead of LT_STR */
struct lnode {
struct lnode *lnxt;
int ltyp;
union {
int lvi;
char *lvs;
struct lnode *lvl;
} lval;
};
struct lnode ltruenode; /* Constant TRUE */
_PROTOTYPE(int main , (int argc , char **argv ));
_PROTOTYPE(int doargs , (int argc , char **argv ));
_PROTOTYPE(char **findkey , (char *cp , char ***aretp , char **tabp , int tabsiz , int elsize ));
_PROTOTYPE(int nstrcmp , (char *s1 , char *s2 ));
_PROTOTYPE(int ustrcmp , (char *s1 , char *s2 ));
_PROTOTYPE(int strueq , (char *s1 , char *s2 ));
_PROTOTYPE(int do_opcod , (void));
_PROTOTYPE(int do_opasc , (void));
_PROTOTYPE(void outkbind , (int c , int fx ));
_PROTOTYPE(int do_obprof , (void));
_PROTOTYPE(int mupcase , (int ch ));
_PROTOTYPE(int upcase , (int ch ));
_PROTOTYPE(char *qstr , (char *str ));
_PROTOTYPE(char *charep , (int c ));
_PROTOTYPE(int do_ocnf , (char *str ));
_PROTOTYPE(int do_ofcod , (void));
_PROTOTYPE(int do_ofasc , (void));
_PROTOTYPE(int do_ofxcod , (void));
_PROTOTYPE(int compile_stdin , (void));
_PROTOTYPE(int lrch , (void));
_PROTOTYPE(struct lnode *lread , (void));
_PROTOTYPE(void wspfls , (void));
_PROTOTYPE(struct lnode *lrstr , (int flg ));
_PROTOTYPE(int islword , (int c ));
_PROTOTYPE(struct lnode *eval , (struct lnode *lp ));
_PROTOTYPE(struct lnode *undefall , (struct lnode *lp ));
_PROTOTYPE(struct lnode *efun , (struct lnode *lp ));
_PROTOTYPE(struct lnode *keybind , (struct lnode *lp ));
_PROTOTYPE(struct lnode *keyallun , (void));
_PROTOTYPE(struct lnode *menuitem , (struct lnode *lp ));
_PROTOTYPE(int repchar , (char *str ));
_PROTOTYPE(struct lnode *getln , (void));
_PROTOTYPE(int numcvt , (char *str , int *anum ));
_PROTOTYPE(int listcnt , (struct lnode *lp ));
_PROTOTYPE(char *funname , (int i ));
_PROTOTYPE(int findfun , (char *name ));
_PROTOTYPE(int funcnt , (int *arr ));
_PROTOTYPE(int scpy , (char *from , char *to , int cnt ));
_PROTOTYPE(char *stripsp , (char *cp ));
int warn();
int lerr();
int fatal();
/* ELLEC argument stuff */
char *argfile;
char *outfile;
int swfilter; /* If no args */
int swprof; /* -P */
int swelle; /* -E */
int uproflg; /* Do compilation of user's profile */
int swpcnf; /* Output defprf.c (C initialization of profile) */
int swfcnf; /* Output eefdef.h */
int swfxcnf; /* Output eefidx.h */
int swcmcnf; /* Output config makefile (makecf.fun) */
char *swcscnf; /* Output config specially (for V6) */
int swallc; /* Do all of config stuff */
int swfdmp; /* Output deffun.e */
int nfiles; /* # file specs seen */
main(argc,argv)
int argc;
char **argv;
{ register int i;
register char *cp;
char temp[300];
/* Initialize LTRUE
** (cannot portably initialize a union at compile time)
*/
ltruenode.ltyp = LT_VAL; /* Set type (other fields zero) */
/* Process switches */
if(argc <= 1) swfilter++; /* If no args, assume filter */
else doargs(argc,argv);
/* Initialize function definitions and key bindings from predefs */
chrptr = malloc(chrsiz);
mtaptr = malloc(mtasiz);
extptr = malloc(extsiz);
mnuptr = malloc(mnusiz);
if (!chrptr || !mtaptr || !extptr || !mnuptr)
fatal("cannot init, no memory");
scpy(charmap, chrptr, (chrcnt = sizeof(charmap)));
scpy(metamap, mtaptr, (mtacnt = sizeof(metamap)));
scpy( extmap, extptr, (extcnt = sizeof(extmap)));
if(def_prof.menuvec)
scpy(def_prof.menuvec, mnuptr, (mnucnt = def_prof.menuvcnt));
for(i = 0; i < npdfuns; ++i) /* Initialize function defs */
if(pdfuntab[i].ef_name)
{ efuntab[i].ef_idx = i;
efuntab[i].ef_name = pdfuntab[i].ef_name;
efuntab[i].ef_adr = stripsp(pdfuntab[i].ef_adr);
if(efxmax < i) efxmax = i;
}
/* Routines expect input from stdin and output their results
* to stdout.
*/
if(argfile)
if(freopen(argfile,"r",stdin) == NULL)
fatal("cannot open input file \"%s\"",argfile);
if(outfile)
if(freopen(outfile,"w",stdout) == NULL)
fatal("cannot open output file \"%s\"",outfile);
/* Check for general compilation */
if(swfilter)
{ /* Not really implemented yet */
fatal("bad usage, see doc");
}
/* Do profile hacking of some kind */
if(swprof || swelle)
{ if (compile_stdin()) /* Compile input profile */
{ if(swprof)
do_opasc(); /* Output ASCII profile (.e) */
else if(swelle)
do_opcod(); /* Output bin profile (.b1) */
}
exit(0);
}
/* Check for variousness */
if(swpcnf)
{ if(compile_stdin()) /* Compile input */
do_opcod(); /* Output the C initialization code */
exit(0);
}
if(swfxcnf)
{ if(compile_stdin()) /* Compile input */
do_ofxcod(); /* Output the eefidx.h code */
exit(0);
}
if(swfcnf)
{ if(compile_stdin()) /* Compile input */
do_ofcod(); /* Output the eefdef.h code */
exit(0);
}
if(swcmcnf || swcscnf)
{ if(compile_stdin()) /* Compile input */
do_ocnf(swcscnf); /* Output the makecf.fun code */
exit(0);
}
if(swfdmp)
{ if(compile_stdin()) /* Compile input */
do_ofasc(); /* Output the deffun.e code */
exit(0);
}
/* Hack user's profile */
if(!uproflg) exit(0);
if(!argfile)
{
temp[0] = 0;
#if !V6
if (cp = getenv("HOME"))
strcat(temp, cp);
#if !TOPS20
strcat(temp,"/");
#endif /*-TOPS20*/
#endif /*-V6*/
strcat(temp, EVPROFTEXTFILE);
if(freopen(temp,"r",stdin) == NULL)
fatal("cannot open profile \"%s\"",temp);
}
if(!outfile)
{
temp[0] = 0;
#if !V6
if (cp = getenv("HOME"))
strcat(temp, cp);
#if !TOPS20
strcat(temp,"/");
#endif /*-TOPS20*/
#endif /*-V6*/
strcat(temp, EVPROFBINFILE);
if(freopen(temp,"wb",stdout) == NULL /* Try binary 1st */
&& freopen(temp,"w",stdout) == NULL)
fatal("cannot open output profile \"%s\"",temp);
}
/* Hack user's profile */
if(compile_stdin()) /* Compile input profile */
do_obprof(); /* Output the binary */
}
#define SW_FLG 0
#define SW_VAR 1
#define SW_STR 2
struct swarg {
char *sw_name;
long sw_type;
int *sw_avar;
char **sw_astr;
} swtab[] = {
"P", SW_FLG, &swprof, 0, /* Old stuff */
"E", SW_FLG, &swelle, 0,
"Profile", SW_FLG, &uproflg, 0,
"Pconf", SW_FLG, &swpcnf, 0,
"Fconf", SW_FLG, &swfcnf, 0,
"FXconf", SW_FLG, &swfxcnf, 0,
"CMconf", SW_FLG, &swcmcnf, 0,
"CSconf", SW_STR, 0, &swcscnf,
"Allconf", SW_FLG, &swallc, 0,
"Pdump", SW_FLG, &swprof, 0,
"Fdump", SW_FLG, &swfdmp, 0
};
doargs(argc,argv)
int argc;
char **argv;
{ register int cnt, c;
register char **av;
register int i;
register struct swarg *swp;
struct swarg *swp2;
int swerrs = 0;
av = argv;
cnt = argc;
nfiles = 0;
while(--cnt > 0)
{ ++av;
if(*av[0] != '-') /* If not switch, */
{ /* assume it's an input filename */
nfiles++;
continue;
}
av[0]++;
/* Try to look up switch in table */
swp = (struct swarg *)findkey(av[0], &swp2, swtab,
(sizeof(swtab))/(sizeof(struct swarg)),
(sizeof(struct swarg))/(sizeof(char *)));
if(swp2)
{ fprintf(stderr,"ellec: ambiguous switch: -%s = %s or %s\n",
av[0], swp->sw_name, swp2->sw_name);
goto swdone;
}
if(swp) switch(swp->sw_type)
{ case SW_FLG:
*(swp->sw_avar) = 1;
goto swdone;
case SW_VAR:
*(swp->sw_avar) = 1;
if(cnt <= 1) goto swdone;
if(isdigit(*av[1]))
{ *(swp->sw_avar) = atoi(av[1]);
--cnt;
goto swargdone;
}
goto swdone;
case SW_STR:
if(cnt <= 1) goto swdone;
*(swp->sw_astr) = av[1];
goto swargdone;
default:
fprintf(stderr,"ellec: bad switch type: %s\n",
av[0]);
swerrs++;
}
stop: fprintf(stderr,"ellec: bad switch: %s\n",*av);
swerrs++;
goto swdone;
swargdone:
av[0] = 0;
av++;
swdone: av[0] = 0;
}
if(swerrs) exit(1); /* Stop if any problems */
}
char **
findkey(cp, aretp, tabp, tabsiz, elsize)
register char *cp;
char ***aretp;
register char **tabp;
int tabsiz, elsize;
{ register char **mp1, **mp2;
register int i, res;
*aretp = mp1 = mp2 = 0;
for(i = 0; i < tabsiz; ++i, tabp += elsize)
{ if(res = ustrcmp(cp,*tabp))
{ if(res > 0) return(tabp);
if(!mp1) mp1 = tabp;
else mp2 = tabp;
}
}
if(mp2)
*aretp = mp2; /* Ambiguous */
return(mp1);
}
/* NSTRCMP - New string compare.
* Returns:
* 2 if str2 > str1 (mismatch)
* 1 if str2 counted out (str1 > str2)
* 0 if full match
* -1 if str1 counted out (str1 < str2)
* -2 if str1 < str2 (mismatch)
*/
nstrcmp(s1,s2)
register char *s1, *s2;
{ register int c, d;
while(c = *s1++)
{ if(c != *s2)
{ if((d = upcase(c) - upcase(*s2)) != 0)
return(*s2==0 ? 1 : (d > 0 ? 2 : -2));
}
++s2;
}
return(*s2 ? -1 : 0);
}
/* USTRCMP - uppercase string compare.
* Returns 0 if mismatch,
* 1 if full match,
* -1 if str1 runs out first (partial match)
*/
ustrcmp(s1,s2)
register char *s1, *s2;
{ register int c;
if ( ! s1 || ! s2 ) return ( 0 ); /* Check for null ptr */
while(c = *s1++)
{ if(c != *s2)
{ if(((c ^ *s2) != 040)
|| (upcase(c) != upcase(*s2)))
return(0);
}
s2++;
}
return(c == *s2 ? 1 : -1);
}
strueq(s1,s2)
char *s1;
char *s2;
{ return (ustrcmp(s1, s2) > 0 ? 1 : 0);
}
/* Output C initialization code for default profile (defprf.c) */
do_opcod()
{ register int i, c, f;
printf("\
/* This file defines the initial data for ELLE's default user profile.\n\
** It is automatically generated by ELLEC, and should not be edited.\n\
*/\n\
char charmap[] = {\n");
for(i=0; i < chrcnt; i++)
{ printf("\t%2d,",(f = chrptr[i]&0377));
printf("\t/* (%3o) %3s",i,charep(i));
printf(" %s",funname(f));
printf(" */\n");
}
printf("};\n char metamap[] = {\n");
for(i = 0; i < mtacnt; i += 2)
{ printf("\t0%-3o,%3d,",(c = mtaptr[i]&0377),(f = mtaptr[i+1]&0377));
printf("\t/* %4s",charep(c|CB_META));
printf(" %s",funname(f));
printf(" */\n");
}
printf("};\n char extmap[] = {\n");
for(i = 0; i < extcnt; i += 2)
{ printf("\t0%-3o,%3d,",(c = extptr[i]&0377),(f = extptr[i+1]&0377));
printf("\t/* %4s",charep(c|CB_EXT));
printf(" %s",funname(f));
printf(" */\n");
}
printf("};\n");
printf("struct profile def_prof = {\n");
printf(" %d, /* Ver */\n", format_ver);
printf(" sizeof(charmap), charmap,\n");
printf(" sizeof(metamap)/2, metamap,\n");
printf(" sizeof(extmap)/2, extmap, \n");
printf(" 0, 0\n");
printf("};\n");
}
/* Output ASCII version of default profile */
int oerrs;
do_opasc()
{ register int i, c, f;
oerrs = 0;
printf("; ELLE default ASCII profile\n\n");
printf("(keyallunbind) ; To flush all existing bindings\n\n");
for(i=0; i < chrcnt; i++)
outkbind(i, chrptr[i]&0377);
printf("\n; Meta chars\n\n");
for(i = 0; i < mtacnt; i += 2)
outkbind(CB_META | (mtaptr[i]&0377), mtaptr[i+1]&0377);
printf("\n ; Extended commands\n\n");
for(i = 0; i < extcnt; i += 2)
outkbind(CB_EXT | (extptr[i]&0377), extptr[i+1]&0377);
printf("\n");
if(oerrs)
fatal("%d errors encountered, check output file.", oerrs);
}
void outkbind(c, fx)
{
if(fx == 0) /* Allow key to be mapped to nothing. */
return;
if(fx <= 0 || fx > efxmax)
printf(";INTERNAL ERROR: Bad function index %d for key %s\n",
fx, charep(c));
else if(efuntab[fx].ef_name == NULL)
printf(";INTERNAL ERROR: No name for function %d while mapping key %s\n",
fx, charep(c));
else {
printf("(keybind %s \"%s\")\n",
qstr(charep(c)),efuntab[fx].ef_name);
return;
}
oerrs++;
}
/* Output binary user profile */
do_obprof()
{ register unsigned int rp; /* Relative "pointer" */
struct stored_profile st_prof;
rp = sizeof(st_prof); /* Initialize */
/* Fixed by Kochin Chang, July 1995 */
/* format version should be the first field in compiled profile */
prof_pack(st_prof.version, format_ver);
prof_pack(st_prof.chrvec, rp);
prof_pack(st_prof.chrvcnt, chrcnt);
rp += chrcnt;
prof_pack(st_prof.metavec, rp);
prof_pack(st_prof.metavcnt, mtacnt/2);
rp += mtacnt;
prof_pack(st_prof.extvec, rp);
prof_pack(st_prof.extvcnt, extcnt/2);
rp += extcnt;
prof_pack(st_prof.menuvec, rp);
prof_pack(st_prof.menuvcnt, mnucnt);
rp += mnucnt;
fwrite((char *)&st_prof,sizeof(st_prof),1,stdout);
fwrite(chrptr,sizeof(char),chrcnt,stdout);
if(mtacnt) fwrite(mtaptr, sizeof(*mtaptr), mtacnt, stdout);
if(extcnt) fwrite(extptr, sizeof(*extptr), extcnt, stdout);
if(mnucnt) fwrite(mnuptr,sizeof(*mnuptr),mnucnt,stdout);
}
/* Return upper-case version of character */
mupcase(ch)
register int ch;
{ return((ch&(~0177)) | upcase(ch));
}
upcase (ch)
{ register int c;
c = ch&0177;
return((('a' <= c) && (c <= 'z')) ? (c - ('a'-'A')) : c);
}
char *
qstr(str)
register char *str;
{ register int c;
static char qstrbuf[100];
register char *cp;
cp = str;
while((c = *cp++) && islword(c));
if(c == 0) return(str); /* No quoting needed */
cp = qstrbuf;
*cp++ = '"';
while(*cp++ = c = *str++)
if(c == '"') *cp++ = c; /* Double the quotes */
cp[-1] = '"';
*cp = 0;
return(qstrbuf);
}
char *
charep(c)
register int c;
{ static char chrbuf[10];
register char *cp;
cp = chrbuf;
if(c&CB_EXT)
{ *cp++ = 'X';
*cp++ = '-';
c &= ~CB_EXT;
}
if(c&CB_META)
{ *cp++ = 'M';
*cp++ = '-';
c &= ~CB_META;
}
if(c <= 037)
{ *cp++ = '^';
c += 0100;
}
if(c == 0177)
{ *cp++ = 'D';
*cp++ = 'E';
*cp++ = 'L';
}
else *cp++ = c;
*cp = 0;
return(chrbuf);
}
/* Output config Makefile (makecf.fun)
* If argument is 0 (NULL), does Makefile type output.
* Otherwise uses string for special-purpose output.
*/
do_ocnf(str)
char *str;
{ register struct fun *fnp;
register int i, mi;
register char *cp;
int fmtab[EFUNMAX];
int nfmods;
char *modtab[EFUNMAX];
char *unknown = "unknown-module";
if(str == NULL) /* If not V6 version */
{ printf("# Function module definition file, generated by ELLEC\n");
printf("FUN_OFILES = ");
}
nfmods = 0;
funcnt(fmtab); /* Count function occs */
for(i = 1; i <= efxmax; ++i)
{ if(fmtab[i] == 0) continue;
fnp = &efuntab[i];
if(fnp->ef_name == 0)
fatal("internal error - no name for function %d", i);
/* Got a function, store its module name if not a dup */
if ((cp = fnp->ef_mod) == NULL) /* Substitute if undef */
cp = unknown;
for(mi=0; mi < nfmods; ++mi)
if(ustrcmp(cp, modtab[mi]) > 0)
break;
if(mi < nfmods) continue;
modtab[nfmods++] = cp;
}
/* Now have table of all modules used. Crunch them into output. */
for(mi=0; mi < nfmods; ++mi)
if (modtab[mi] != unknown)
{ if(str != NULL) /* V6 version? */
printf("%s %s\n", str, modtab[mi]);
else printf("\\\n\t%s.o", modtab[mi]);
}
printf("\n");
}
/* Output eefdef.h */
do_ofcod()
{ register struct fun *fnp;
register int i;
char temp[40];
int fmtab[EFUNMAX];
printf("/* .H Function Definition file, generated by ELLEC */\n");
printf("/* 0 */ EFUNHOLE /* Always undefined */\n");
funcnt(fmtab); /* Count function occs */
for(i = 1; i <= efxmax ; ++i)
{
fnp = &efuntab[i];
printf("/* %3d */ ", i);
if(fmtab[i] == 0 || fnp->ef_name == 0)
printf("EFUNHOLE\n");
else
{ sprintf(temp, "\"%s\"", fnp->ef_adr);
printf("EFUN( %-12s, %-14s, \"%s\")\n", fnp->ef_adr,
temp, fnp->ef_name);
}
}
}
/* Output ascii version of function def file
*/
do_ofasc()
{ register struct fun *fnp;
register int i;
register char *fa, *fm;
printf("; Master Function Definition file\n");
for(i = 1; i <= efxmax ; ++i)
{
fnp = &efuntab[i];
if(fnp->ef_idx == 0) /* No definition for this index? */
continue;
if(fnp->ef_name == 0)
{ warn("internal error - no name for function %d", i);
continue;
}
if ((fa = fnp->ef_adr) == NULL)
fa = "unknown-addr";
if ((fm = fnp->ef_mod) == NULL)
fm = "unknown-module";
printf("(efun %d \"%s\" %s %s)\n",
fnp->ef_idx, fnp->ef_name, fa, fm);
}
}
/* Output eefidx.h */
do_ofxcod()
{ register struct fun *fnp;
register int i;
register char *cp, *cp2;
int fmtab[EFUNMAX];
char tmpstr[100];
printf("\
/* .H Function Index Definition file, generated by ELLEC */\n");
printf("\
/* FN_ defines Function Numbers (indices) for all known functions */\n");
printf("\
/* FX_ defines Function eXistence in this ELLE configuration */\n");
funcnt(fmtab); /* Count function occs */
for(i = 1; i <= efxmax ; ++i)
{
fnp = &efuntab[i];
if(fnp->ef_idx == 0) /* No definition for this index? */
continue;
if(fnp->ef_adr == 0 || fnp->ef_name == 0)
{ warn("internal error - no addr/name for function %d", i);
continue;
}
cp2 = fnp->ef_adr;
cp = tmpstr;
while(*cp++ = upcase(*cp2++));
cp = tmpstr;
if((*cp++ != 'F') || (*cp++ != '_'))
cp = tmpstr;
/* Always define FN_ as index */
printf("#define FN_%-14s %3d /* %s */\n",
cp, i, fnp->ef_name);
/* Define FX_ as 0 if unused, else same as FN_ */
printf("#define FX_%-14s %3d\n", cp,
(fmtab[i] == 0) ? 0 : i); /* 0 if unused */
}
}
/* Compile input! */
compile_stdin()
{ register struct lnode *lp;
while((lp = lread()) != NIL)
eval(lp);
return(1);
}
#define MAXLINE 300
int llstch = -1;
int leofflg;
#define unlrch(c) llstch = c
int lineno = 0;
char linebuf[MAXLINE];
char *linecp = linebuf;
lrch()
{ register int c;
if((c = llstch) >= 0)
{ if(c == 0 && leofflg)
return(EOF);
llstch = -1;
return(c);
}
if((c = getc(stdin)) == EOF)
{ leofflg = 1;
llstch = 0;
*linecp = 0;
linecp = linebuf;
return(c);
}
if(c == '\n')
{ lineno++;
linecp = linebuf;
}
else *linecp++ = c;
return(c);
}
struct lnode *
lread()
{ register int c;
register struct lnode *lp, *lp2;
struct lnode *head;
wspfls();
if((c = lrch())== EOF)
return(NIL);
if(c == ')') /* End of a list? */
return(NIL);
if(c == '(') /* Start of a list? */
{ head = lp = getln();
lp->ltyp = LT_LIST;
if((head->lval.lvl = lp = lread()) == NIL)
return(head); /* Return empty list */
while(lp2 = lread())
{ lp->lnxt = lp2;
lp = lp2;
}
return(head);
}
/* Atom of some kind */
if(c=='"')
{ return(lrstr(1));
}
unlrch(c);
return(lrstr(0));
}
void wspfls()
{ register int c;
for(;;)
{ c = lrch();
if(isspace(c)) continue;
if(c == ';')
while((c = lrch()) != '\n')
if(c == EOF) return;
break;
}
if(c != EOF) unlrch(c);
}
#define LSMAX 300 /* Max # chars in atom string */
struct lnode *
lrstr(flg)
{ char cbuf[LSMAX];
register char *cp;
register int c, i;
struct lnode *lp;
cp = cbuf;
i = 0;
while((c = lrch()) != EOF)
if (flg) switch(c)
{ case '"':
if((c = lrch()) == EOF)
return(NIL);
if(c != '"')
{ unlrch(c);
goto out;
}
default:
ok:
if(++i > LSMAX)
break;
*cp++ = c;
continue;
}
else
{ if(islword(c)) goto ok;
unlrch(c);
break;
}
out:
lp = getln();
lp->ltyp = LT_STR;
lp->lval.lvs = malloc(i+1);
*cp = 0;
strcpy(lp->lval.lvs, cbuf);
return(lp);
}
islword(c)
{ return((040 < c && c < 0177
&& c != '(' && c !=')' && c != ';'
&& c != '"' && c != '\\') ? 1 : 0);
}
struct lnode *keybind(), *keyallun(), *menuitem(), *efun(),
*undefall();
struct lfun {
char *lfname; /* Name of list function */
struct lnode * (*lfrtn)(); /* Function address */
} lfntab[] = {
"keybind", keybind,
"efun", efun,
"menuitem", menuitem,
"keyallunbind", keyallun,
/* "keyunbind", keyunbind, */ /* Not yet */
"undefall", undefall,
/* "undef", undef, */ /* Not yet */
0, 0
};
struct lnode *
eval(lp)
register struct lnode *lp;
{ register struct lnode *flp;
register struct lfun *lfent;
if(lp->ltyp != LT_LIST)
return(lp);
if((flp = lp->lval.lvl) == NIL)
return(NIL);
if(flp->ltyp != LT_STR)
return(NIL);
/* Look up list function and invoke it */
for(lfent = lfntab; lfent->lfname; lfent++)
if(strueq(flp->lval.lvs, lfent->lfname))
return((*(lfent->lfrtn))(flp->lnxt));
lerr("unknown op: (%s)", flp->lval.lvs);
return(NIL);
}
/* UNDEFALL - (undefall)
** Undefines all functions. Typically used to clear out
** predefined functions prior to compiling a set of new efuns.
*/
struct lnode *
undefall(lp)
register struct lnode *lp;
{
register int i;
efxmax = 0; /* Say nothing in function def table! */
for(i = 0; i < EFUNMAX; ++i)
{ efuntab[i].ef_idx = 0;
efuntab[i].ef_name = 0;
efuntab[i].ef_adr = 0;
efuntab[i].ef_mod = 0;
}
return(LTRUE);
}
/* EFUN - (efun <index> <functionname> <address> <module>)
** Checks out the args and if no problems, stores the function
** definition in efuntab.
*/
struct lnode *
efun(lp)
register struct lnode *lp;
{ struct lnode *nlp;
register int c, i;
register struct fun *fnp;
char *fname, *faddr, *fmod;
int fni, num;
if(listcnt(lp) < 4)
{ lerr("efun - not enough args");
return(NIL);
}
/* First thing should be function index */
switch(lp->ltyp)
{ case LT_VAL:
fni = lp->lval.lvi;
break;
case LT_STR:
if(numcvt(lp->lval.lvs, &num))
{ fni = num;
break;
}
default:
lerr("efun - non-value function index");
return(NIL);
}
/* Next thing should be function name */
lp = lp->lnxt;
if(lp->ltyp != LT_STR) /* Function name not a string */
{ lerr("efun - non-string function name");
return(NIL);
}
fname = lp->lval.lvs;
/* Next thing should be function addr */
lp = lp->lnxt;
if(lp->ltyp != LT_STR) /* Function addr not a string */
{ lerr("efun - non-string function addr");
return(NIL);
}
faddr = lp->lval.lvs;
/* Next thing should be function module */
lp = lp->lnxt;
if(lp->ltyp != LT_STR) /* Function module not a string */
{ lerr("efun - non-string function module");
return(NIL);
}
fmod = lp->lval.lvs;
/* Now see if already exists or anything */
if(fni <= 0 || fni > EFUNMAX)
{ lerr("efun - bad function index %d", fni);
return(NIL);
}
fnp = &efuntab[fni];
if(fnp->ef_idx != 0)
{
if (fnp->ef_idx == fni
&& strueq(fnp->ef_name, fname)
&& strueq(fnp->ef_adr, faddr)
&& (fnp->ef_mod == NULL || strueq(fnp->ef_mod, fmod)))
goto win; /* Benign redefinition */
lerr("efun - redefining function (%d \"%s\" %s %s)",
fnp->ef_idx, fnp->ef_name, fnp->ef_adr,
(fnp->ef_mod ? fnp->ef_mod : "unknown-module"));
}
for(i = 0; i < EFUNMAX; ++i)
{ if(efuntab[i].ef_idx == 0) continue;
if(ustrcmp(efuntab[i].ef_adr,faddr) > 0
|| ustrcmp(efuntab[i].ef_name, fname) > 0)
{ if(i == fni) continue;
lerr("efun - name or address dup! \"%s\"", fname);
return(NIL);
}
}
/* No problems, store the function def in efuntab! */
win: fnp->ef_idx = fni;
fnp->ef_mod = fmod;
fnp->ef_adr = faddr;
fnp->ef_name = fname;
if(efxmax < fni) efxmax = fni;
return(LTRUE);
}
/* KEYBIND - (keybind <charspec> <functionname>) */
struct lnode *
keybind(lp)
register struct lnode *lp;
{ struct lnode *nlp;
register int c, i;
int fni;
if(lp == NIL || (nlp = lp->lnxt)== NIL)
return(NIL);
switch(lp->ltyp)
{ case LT_VAL:
c = lp->lval.lvi;
break;
case LT_LIST:
return(NIL);
case LT_STR:
c = repchar(lp->lval.lvs);
break;
}
if(c == -1)
return(NIL); /* No such command char name */
lp = nlp;
if(lp->ltyp != LT_STR) /* Function name not a string */
{ lerr("(keybind) non-string function name");
return(NIL);
}
fni = findfun(lp->lval.lvs);
if(fni == 0) /* No such function name */
{ lerr("(keybind) no such function - \"%s\"", lp->lval.lvs);
return(NIL);
}
if(c & CB_EXT)
{ c &= ~CB_EXT;
/* Check for redefinition */
for(i = 0; i < extcnt; i += 2)
if(c == (extptr[i]&0377)) /* Already there? */
{ if((extptr[i+1]&0377) != fni) /* Yes, check fn */
lerr("(keybind) redefining X-%s as %d=\"%s\"",
charep(c), fni, lp->lval.lvs);
break;
}
if(i >= extcnt) /* Didn't find? */
{ if(extcnt >= extsiz)
{ lerr("(keybind) too many X- commands");
return(NIL); /* Too many EXT cmds */
}
i = extcnt; /* Increase size of table */
extcnt += 2;
}
/* Now store new binding */
extptr[i] = c;
extptr[i+1] = fni;
}
else if(c&CB_META)
{ c &= ~CB_META;
/* Check for redefinition */
for(i = 0; i < mtacnt; i += 2)
if(c == (mtaptr[i]&0377)) /* Already there? */
{ if((mtaptr[i+1]&0377) != fni) /* Yes, check fn */
lerr("(keybind) redefining M-%s as %d=\"%s\"",
charep(c), fni, lp->lval.lvs);
break;
}
if(i >= mtacnt) /* Didn't find? */
{ if(mtacnt >= mtasiz)
{ lerr("(keybind) too many M- commands");
return(NIL); /* Too many META cmds */
}
i = mtacnt; /* Increase size of table */
mtacnt += 2;
}
/* Now store new binding */
mtaptr[i] = c;
mtaptr[i+1] = fni;
}
else {
i = c & 0177;
if (chrptr[i] && (chrptr[i]&0377) != fni)
lerr("(keybind) redefining %s as %d=\"%s\"",
charep(c), fni, lp->lval.lvs);
chrptr[i] = fni;
}
return(LTRUE);
}
/* KEYALLUNBIND - (keyallunbind) */
struct lnode *
keyallun()
{ register int i;
register char *cp;
/* fprintf(stderr, "ellec: clearing all key definitions\n"); */
for(i = 0, cp = chrptr; i < chrcnt; i++)
*cp++ = 0;
mtacnt = extcnt = mnucnt = 0;
return(LTRUE);
}
/* MENUITEM - (menuitem <functionname>) */
struct lnode *
menuitem(lp)
register struct lnode *lp;
{ register int i, fni;
if(lp == NIL)
return(NIL);
switch(lp->ltyp)
{ case LT_VAL:
fni = lp->lval.lvi;
break;
case LT_LIST:
return(NIL);
case LT_STR:
fni = findfun(lp->lval.lvs);
break;
}
if(fni == 0) return(NIL); /* Bad val or no such function name */
for(i = 0; i < mnusiz; i++)
if(fni == (mnuptr[i]&0377) || mnuptr[i] == 0)
{ mnuptr[i] = fni;
mnucnt++;
return(LTRUE);
}
return(NIL); /* Too many menu items */
}
repchar(str)
register char *str;
{ register int c;
register int i, l;
if (str == 0) return (-1);
i = 0;
l = strlen(str);
c = (*str++)&0377;
if(l == 0) return(-1);
if(l == 1) return(c); /* One-char representation */
if(c == '^')
if(l == 2) return((~0140) & mupcase(*str));
else return(-1);
c = mupcase(c);
if (*str == '-')
{ if(*++str == 0) return(-1);
switch(c)
{ case 'X': return(CB_EXT | mupcase(repchar(str)));
case 'M': return(CB_META | mupcase(repchar(str)));
case 'C': return((~0140) & repchar(str));
}
}
if(c == 'S' && upcase(*str) == 'P' && l == 2)
return(' ');
if(c == 'D' && upcase(*str++) == 'E' && upcase(*str++) == 'L'
&& *str == 0)
return(0177);
return(-1);
}
struct lnode *
getln()
{ return((struct lnode *)calloc(1,sizeof(struct lnode)));
}
numcvt(str, anum)
char *str;
int *anum;
{ register char *cp;
register int i, c, sign;
if((cp = str) == 0)
return 0;
i = sign = 0;
if(*cp == '-')
cp++, sign++;
while(c = *cp++)
if(!isdigit(c)) return(0);
else i = 10*i + (c - '0');
*anum = sign ? -i : i;
return(1);
}
listcnt(lp)
register struct lnode *lp;
{ register int i;
i = 0;
while(lp)
++i, lp = lp->lnxt;
return(i);
}
/* FUNNAME - Given function index, return function name.
** Always wins; returns "unknown" for bad indices.
*/
char *
funname(i)
register int i;
{
register char *cp = NULL;
if(0 < i && i <= efxmax && (cp = efuntab[i].ef_name))
return cp;
return("unknown function");
}
findfun(name)
register char *name;
{ register int i;
if((i = efxmax) > 0)
{ do { if(strueq(name, efuntab[i].ef_name))
return(i);
} while(--i);
return(0);
}
return(0);
}
/* FUNCNT - Scan all key bindings, counting each occurrence of every
** function index.
** This is used to determine which functions are actually used.
*/
funcnt(arr)
register int *arr; /* Pointer to array of EFUNMAX ints */
{
register int i;
for(i = 0; i < EFUNMAX; ++i) /* Clear the array */
arr[i] = 0;
for(i = 0; i < chrcnt; ++i) /* Scan bindings */
arr[chrptr[i]&0377]++;
for(i = 0; i < mtacnt; i += 2)
arr[mtaptr[i+1]&0377]++;
for(i = 0; i < extcnt; i += 2)
arr[extptr[i+1]&0377]++;
}
scpy(from,to,cnt)
register char *from,*to;
register int cnt;
{ if(cnt > 0)
do { *to++ = *from++; }
while(--cnt);
}
/* STRIPSP - strip spaces from string. Returns ptr to start. */
char *
stripsp(cp)
register char *cp;
{
register char *ep, *lastp;
while(*cp == ' ') ++cp;
if (*cp)
{ ep = cp + strlen(cp); /* Point to null ending the str */
while (*--ep == ' ');
*++ep = 0; /* Tie it off */
}
return cp;
}
warn(str,a,b,c,d,e,f,g,h,i)
char *str;
{
fprintf(stderr, "ellec: ");
fprintf(stderr, str, a,b,c,d,e,f,g,h,i);
fprintf(stderr, "\n");
}
lerr(str,a,b,c,d,e,f,g,h,i)
char *str;
{
warn(str, a,b,c,d,e,f,g,h,i);
*linecp = 0; /* Tie off current line buffer */
fprintf(stderr, " Line %d: %s\n", lineno, linebuf);
}
fatal(str,a,b,c,d,e,f,g,h,i)
char *str;
{
warn(str, a,b,c,d,e,f,g,h,i);
exit(1);
}
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