/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*
*/
/*
* L L G E N
*
* An Extended LL(1) Parser Generator
*
* Author : Ceriel J.H. Jacobs
*/
/*
* gencode.c
* Defines the routine "gencode", which generates the parser
* we wanted so badly.
* This file is a mess, it should be cleaned up some time.
*/
# include "types.h"
# include "io.h"
# include "extern.h"
# include "sets.h"
# include "assert.h"
# include "cclass.h"
# ifndef NORCSID
static string rcsid3 = "$Header$";
# endif NORCSID
/*
* Some codestrings used more than once
*/
static string c_arrend = "0 };\n";
static string c_close = "}\n";
static string c_break = "break;\n";
static string c_read = "LLread();\n";
/* Some constants used for reading from the action file */
# define ENDDECL 0400
# define IDENT 0401
static int nlabel; /* count for the generation of labels */
static int firsts; /* are there any? */
/* In this file the following routines are defined: */
extern gencode();
STATIC opentemp();
STATIC geninclude();
STATIC genrecovery();
STATIC string genname();
STATIC generate();
STATIC prset();
STATIC macro();
STATIC controlline();
STATIC getparams();
STATIC gettok();
STATIC rulecode();
STATIC int * dopush();
STATIC getaction();
STATIC alternation();
STATIC codeforterm();
STATIC genswhead();
STATIC gencases();
STATIC genpush();
STATIC genpop();
STATIC genincrdecr();
# define NOPOP -20000
p_mem alloc();
gencode(argc) {
register p_file p = files;
/* Set up for code generation */
if ((fact = fopen(f_temp,"r")) == NULL) {
fatal(0,e_noopen,f_temp);
}
/* For every source file .... */
while (argc--) {
/* Open temporary */
f_input = p->f_name;
opentemp(f_input);
/* generate code ... */
copyfile(incl_file);
generate(p);
getaction(2);
if (ferror(fpars) != 0) {
fatal(0,"Write error on temporary");
}
fclose(fpars);
/* And install */
install(genname(p->f_name),p->f_name);
p++;
}
geninclude();
genrecovery();
}
STATIC
opentemp(str) string str; {
if ((fpars = fopen(f_pars,"w")) == NULL) {
fatal(0,e_noopen,f_pars);
}
if (!str) str = ".";
fprintf(fpars,LLgenid,str);
}
STATIC
geninclude() {
register p_token p;
opentemp((string) 0);
for (p = tokens; p < maxt; p++) {
if (p->t_tokno >= 0400) {
fprintf(fpars,"# define %s %d\n",
p->t_string,
p->t_tokno);
}
}
if (ferror(fpars) != 0) {
fatal(0,"write error on temporary");
}
fclose(fpars);
install(HFILE, ".");
}
STATIC
genrecovery() {
register FILE *f;
register p_token t;
register int *q;
register p_nont p;
register p_set *psetl;
int *index;
int i;
register p_start st;
opentemp((string) 0);
f = fpars;
copyfile(incl_file);
if (!firsts) fputs("#define LLNOFIRSTS\n", f);
for (st = start; st; st = st->ff_next) {
/* Make sure that every set the parser needs is in the list
* before generating a define of the number of them!
*/
p = &nonterms[st->ff_nont];
if (g_gettype(p->n_rule) == ALTERNATION) {
findindex(p->n_contains);
}
}
i = maxptr - setptr;
fprintf(f,
"#define LL_LEXI %s\n#define LL_SSIZE %d\n#define LL_NSETS %d\n#define LL_NTERMINALS %d\n",
lexical,
nbytes,
i > 0 ? i : 1,
ntokens);
if (onerror) fprintf(f,"#define LL_USERHOOK %s\n", onerror);
/* Now generate the routines that call the startsymbols */
for (st = start; st; st = st->ff_next) {
fputs(st->ff_name, f);
p = &nonterms[st->ff_nont];
fputs("() {\n\tunsigned int s[LL_NTERMINALS+LL_NSETS+2];\n\tLLnewlevel(s);\n\tLLread();\n", f);
if (g_gettype(p->n_rule) == ALTERNATION) {
genpush(findindex(p->n_contains));
}
fprintf(f, "\tL%d_%s();\n",
st->ff_nont,
p->n_name);
if (getntout(p) == NOSCANDONE) {
fputs("\tLLscan(EOFILE);\n",f);
}
else fputs("\tif (LLsymb != EOFILE) LLerror(EOFILE);\n",f);
fputs("\tLLoldlevel(s);\n}\n",f);
}
/* Now generate the sets */
fputs("char LLsets[] = {\n",f);
for (psetl = setptr; psetl < maxptr; psetl++) prset(*psetl);
fputs(c_arrend, f);
index = (int *) alloc((unsigned) (assval * sizeof(int)));
for (q = index; q < &index[assval];) *q++ = -1;
for (t = tokens; t < maxt; t++) {
index[t->t_tokno] = t - tokens;
}
fputs("short LLindex[] = {\n",f);
for (q = index; q < &index[assval]; q++) {
fprintf(f, "%d,\n", *q);
}
fputs(c_arrend, f);
free((p_mem) index);
fputs("#define LL_NEWMESS\n", f);
copyfile(rec_file);
if (ferror(f) != 0) {
fatal(0,"write error on temporary");
}
fclose(f);
install(RFILE, ".");
}
STATIC
generate(f) p_file f; {
/*
* Generates a parsing routine for every nonterminal
*/
register p_order s;
register p_nont p;
int i;
register p_first ff;
int mustpop;
/* Generate first sets */
for (ff = f->f_firsts; ff; ff = ff->ff_next) {
macro(ff->ff_name,&nonterms[ff->ff_nont]);
}
/* For every nonterminal generate a function */
for (s = f->f_list; s; s = s->o_next) {
p = &nonterms[s->o_index];
/* Generate functions in the order in which the nonterminals
* were defined in the grammar. This is important, because
* of synchronisation with the action file
*/
while (p->n_count--) getaction(1);
fprintf(fpars,"L%d_%s (\n",s->o_index,p->n_name);
if (p->n_flags & PARAMS) {
controlline();
getparams();
}
else fputs(") {\n", fpars);
if (p->n_flags & LOCALS) getaction(1);
i = getntsafe(p);
mustpop = NOPOP;
if (g_gettype(p->n_rule) == ALTERNATION &&
i > SAFESCANDONE) {
mustpop = findindex(p->n_contains);
if (i == NOSCANDONE) {
fputs(c_read, fpars);
i = SCANDONE;
}
}
nlabel = 1;
rulecode(p->n_rule,
i,
getntout(p) != NOSCANDONE,
mustpop);
fputs(c_close, fpars);
}
}
STATIC
prset(p) p_set p; {
register int k;
register unsigned i;
int j;
j = nbytes;
for (;;) {
i = (unsigned) *p++;
for (k = 0; k < sizeof(int); k++) {
fprintf(fpars,"0%o,",(i & 0377));
i >>= 8;
if (--j == 0) {
fputs("\n",fpars);
return;
}
}
}
/* NOTREACHED */
}
STATIC
macro(s,n) string s; p_nont n; {
int i;
i = findindex(n->n_first);
if (i < 0) {
fprintf(fpars, "#define %s(x) ((x) == %d)\n",
s,
tokens[-(i+1)].t_tokno);
return;
}
firsts = 1;
fprintf(fpars,"#define %s(x) LLfirst((x), %d)\n", s, i);
}
STATIC
controlline() {
/* Copy a compiler control line */
register int l;
register FILE *f1,*f2;
f1 = fact; f2 = fpars;
l = getc(f1);
assert(l == '\0');
do {
l = getc(f1);
if (l == EOF) fatal(0, "temp file mangled");
putc(l,f2);
} while ( l != '\n' ) ;
}
STATIC
getparams() {
/* getparams is called if a nonterminal has parameters. The names
* of the parameters have to be found, and they should be declared
*/
long off;
register int l;
long ftell();
char first;
first = ' ';
/* save offset in file to be able to copy the declaration later */
off = ftell(fact);
/* First pass through declaration, find the parameter names */
while ((l = gettok()) != ENDDECL) {
if (l == ';' || l == ',') {
/*
* The last identifier found before a ';' or a ','
* must be a parameter
*/
fprintf(fpars,"%c%s", first, ltext);
first = ',';
}
}
fputs(") ",fpars);
/*
* Now copy the declarations
*/
fseek(fact,off,0);
getaction(0);
fputs(" {\n",fpars);
}
STATIC
gettok() {
/* Read from the action file. */
register int ch;
register string c;
register FILE *f;
f = fact;
ch = getc(f);
switch(ch) {
case '\n':
ch = getc(f);
if (ch != EOF) {
ungetc(ch,f);
if (ch != '\0') return '\n';
}
return ENDDECL;
case '\0':
ungetc(ch,f);
/* Fall through */
case EOF :
return ENDDECL;
default :
if (c_class[ch] == ISLET) {
c = ltext;
do {
*c++ = ch;
if (c-ltext >= LTEXTSZ) --c;
ch = getc(f);
} while (c_class[ch] == ISLET || c_class[ch] == ISDIG);
if (ch != EOF) ungetc(ch,f);
*c = '\0';
return IDENT;
}
return ch;
}
}
STATIC
rulecode(p,safety,mustscan,mustpop) register p_gram p; {
/*
* Code for a production rule.
*/
register int toplevel = 1;
register FILE *f;
register int *ppu;
int pushlist[100];
int *ppushlist;
/*
* First generate code to push the contains sets of this rule
* on a stack
*/
ppu = pushlist;
ppushlist = dopush(p,safety,1,ppu);
if (mustpop != NOPOP) for (; ppu < ppushlist; ppu++) {
if (*ppu == mustpop) {
*ppu = mustpop = NOPOP;
break;
}
}
if (g_gettype(p) != ALTERNATION) {
genpop(mustpop);
mustpop = NOPOP;
}
for (ppu = pushlist; ppu < ppushlist; ppu++) genpush(*ppu);
f = fpars;
for (;;) {
switch (g_gettype(p)) {
case EORULE :
if (mustscan && safety == NOSCANDONE) {
fputs(c_read,f);
}
return;
case LITERAL :
case TERMINAL : {
register p_token t;
string s;
t = &tokens[g_getcont(p)];
if (toplevel == 0) {
fprintf(f,"LLtdecr(%d);\n", g_getcont(p));
}
if (safety == SAFE) {
fputs("LL_SAFE(",f);
}
else if (safety == SAFESCANDONE) {
fputs("LL_SSCANDONE(",f);
}
else if (safety == SCANDONE) {
fputs("LL_SCANDONE(",f);
}
else /* if (safety == NOSCANDONE) */ {
fputs("LL_T_NOSCANDONE(", f);
}
if (t->t_tokno < 0400) s = "'%s');\n";
else s = "%s);\n";
fprintf(f,s,t->t_string);
if (safety <= SAFESCANDONE && toplevel > 0) {
safety = NOSCANDONE;
toplevel = -1;
p++;
continue;
}
safety = NOSCANDONE;
break; }
case NONTERM : {
register p_nont n = &nonterms[g_getnont(p)];
if (safety == NOSCANDONE &&
getntsafe(n) < NOSCANDONE) {
safety = getntsafe(n);
fputs(c_read, f);
}
if (toplevel == 0 &&
(g_gettype(n->n_rule) != ALTERNATION ||
getntsafe(n) <= SAFESCANDONE)) {
genpop(findindex(n->n_contains));
}
if (g_gettype(n->n_rule) == EORULE &&
safety <= getntout(n) &&
! g_getnpar(p)) {
safety = getntout(n);
break;
}
fprintf(f,"L%d_%s(\n",g_getnont(p), n->n_name);
if (g_getnpar(p)) {
controlline();
getaction(0);
}
fputs(");\n",f);
safety = getntout(n);
break; }
case TERM :
safety = codeforterm(&terms[g_getcont(p)],
safety,
toplevel);
break;
case ACTION :
getaction(1);
p++;
continue;
case ALTERNATION :
alternation(p, safety, mustscan, mustpop, 0);
return;
}
p++;
toplevel = 0;
}
}
STATIC
alternation(p, safety, mustscan, mustpop, lb) register p_gram p; {
register FILE *f = fpars;
register p_link l;
int hulp, hulp1,hulp2;
int haddefault = 0;
int unsafe = 1;
int nsafe;
p_set set;
p_set setalloc();
assert(safety < NOSCANDONE);
l = &links[g_getcont(p)];
hulp = nlabel++;
hulp1 = nlabel++;
hulp2 = nlabel++;
if (!lb) lb = hulp1;
if (!onerror && safety <= SAFESCANDONE) unsafe = 0;
if (!unsafe) {
genpop(mustpop);
mustpop = NOPOP;
}
if (unsafe && hulp1 == lb) {
fprintf(f,"L_%d: \n", hulp1);
}
fputs("switch(LLcsymb) {\n", f);
while (g_gettype(p) != EORULE) {
l = &links[g_getcont(p)];
if (unsafe && (l->l_flag & DEF)) {
haddefault = 1;
fprintf(f,
"default: if (LLskip()) goto L_%d;\ngoto L_%d;\n",
lb, hulp2);
}
if (l->l_flag & COND) {
set = setalloc();
setunion(set, l->l_others);
setintersect(set, l->l_symbs);
setminus(l->l_symbs, set);
setminus(l->l_others, set);
gencases(set);
controlline();
fputs("if (!",f);
getaction(0);
fprintf(f,") goto L_%d;\n", hulp);
}
if (!haddefault && (l->l_flag & DEF)) {
haddefault = 1;
fputs("default:\n", f);
}
else gencases(l->l_symbs);
nsafe = SAFE;
if (l->l_flag & DEF) {
if (unsafe) {
fprintf(f,"L_%d: ;\n", hulp2);
}
if (safety != SAFE) nsafe = SAFESCANDONE;
}
rulecode(l->l_rule, nsafe, mustscan, mustpop);
fputs(c_break,f);
if (l->l_flag & COND) {
p++;
fprintf(f,"L_%d : ;\n",hulp);
if (g_gettype(p+1) == EORULE) {
setminus(links[g_getcont(p)].l_symbs, set);
free((p_mem) set);
continue;
}
free((p_mem) set);
if (!haddefault) {
fputs("default:\n", f);
}
else {
gencases(l->l_others);
safety = SAFE;
unsafe = 0;
}
if (! unsafe) {
genpop(mustpop);
mustpop = NOPOP;
}
alternation(p,safety,mustscan,mustpop,lb);
break;
}
p++;
}
fputs(c_close, f);
}
STATIC int *
dopush(p,safety,toplevel,pp) register p_gram p; register int *pp; {
/*
* The safety only matters if toplevel != 0
*/
for (;;) {
switch(g_gettype(p)) {
case EORULE :
case ALTERNATION :
return pp;
case TERM : {
register p_term q;
int rep, cnt;
q = &terms[g_getcont(p)];
rep = r_getkind(q);
cnt = r_getnum(q);
if (!(toplevel > 0 && safety <= SAFESCANDONE &&
(rep == OPT || (rep == FIXED && cnt == 0)))) {
*pp++ = findindex(q->t_contains);
}
break; }
case LITERAL :
case TERMINAL :
if (toplevel > 0 && safety <= SAFESCANDONE) {
toplevel = -1;
p++;
safety = NOSCANDONE;
continue;
}
if (toplevel == 0) *pp++ = -(g_getcont(p)+1);
break;
case NONTERM : {
register p_nont n;
n = &nonterms[g_getnont(p)];
if (toplevel == 0 ||
(g_gettype(n->n_rule) == ALTERNATION &&
getntsafe(n) > SAFESCANDONE)) {
*pp++ = findindex(n->n_contains);
}
break; }
case ACTION :
p++;
continue;
}
toplevel = 0;
safety = NOSCANDONE;
p++;
}
}
# define max(a,b) ((a) < (b) ? (b) : (a))
STATIC
getaction(flag) {
/* Read an action from the action file.
* flag = 1 if it is an action,
* 0 when reading parameters
*/
register int match,ch;
register FILE *f;
register int newline;
int mark = 0;
if (flag == 1) {
controlline();
}
f = fpars;
newline = 0;
for (;;) {
ch = gettok();
switch(ch) {
case ENDDECL:
if (flag != 2) break;
ch = getc(fact);
assert(ch == '\0');
fputs("\n",f);
if (mark) return;
mark = 1;
continue;
case '\n':
newline = 1;
break;
case '\'' :
case '"' :
if (newline) {
newline = 0;
}
match = ch;
for (;;) {
putc(ch,f);
ch = getc(fact);
if (ch == match || !ch) break;
if (ch == '\\') {
putc(ch,f);
ch = getc(fact);
}
}
break;
case IDENT :
if (newline) {
newline = 0;
}
fputs(ltext,f);
continue;
}
mark = 0;
if (ch == ENDDECL) break;
if (newline && ch != '\n') {
newline = 0;
}
putc(ch,f);
}
if (flag) fputs("\n",f);
}
STATIC
codeforterm(q,safety,toplevel) register p_term q; {
/*
* Generate code for a term
*/
register FILE *f;
register int i;
register int rep;
int persistent;
int ispushed;
int sw = SAFE;
f = fpars;
i = r_getnum(q);
rep = r_getkind(q);
persistent = (q->t_flags & PERSISTENT);
ispushed = NOPOP;
if (!(toplevel > 0 &&
(safety == 0 || (!onerror && safety <= SAFESCANDONE)) &&
(rep == OPT || (rep == FIXED && i == 0)))) {
ispushed = findindex(q->t_contains);
}
if (safety == NOSCANDONE && (rep != FIXED || i == 0 ||
gettout(q) != NOSCANDONE)) {
fputs(c_read, f);
safety = SCANDONE;
}
if (rep == PLUS && !persistent) {
int temp;
temp = findindex(q->t_first);
if (temp != ispushed) {
genpop(ispushed);
ispushed = temp;
genpush(temp);
}
}
if (i) {
/* N > 0, so generate fixed forloop */
fputs("{\nregister LL_i;\n", f);
assert(ispushed != NOPOP);
fprintf(f, "for (LL_i = %d; LL_i >= 0; LL_i--) {\n", i - 1);
if (rep == FIXED) {
fputs("if (!LL_i) ", f);
genpop(ispushed);
genpush(ispushed);
if (safety == NOSCANDONE) {
assert(gettout(q) == NOSCANDONE);
fputs(c_read, f);
}
}
}
else if (rep != OPT && rep != FIXED) {
/* '+' or '*', so generate infinite loop */
fputs("for (;;) {\n",f);
}
else if (rep == OPT &&
(safety == 0 || (!onerror && safety <= SAFESCANDONE))) {
genpop(ispushed);
ispushed = NOPOP;
}
if (rep == STAR || rep == OPT) {
sw = genswhead(q, rep, i, safety, ispushed);
}
rulecode(q->t_rule,
t_safety(rep,i,persistent,safety),
gettout(q) != NOSCANDONE,
rep == FIXED ? ispushed : NOPOP);
if (gettout(q) == NOSCANDONE && rep != FIXED) {
fputs(c_read, f);
}
/* in the case of '+', the if is after the code for the rule */
if (rep == PLUS) {
if (i) {
fputs("if (!LL_i) break;\n", f);
}
sw = genswhead(q, rep, i, safety, ispushed);
}
if (rep != OPT && rep != FIXED) fputs("continue;\n", f);
if (rep != FIXED) {
fputs(c_close, f); /* Close switch */
if (rep != OPT) {
genpop(ispushed);
fputs(c_break, f);
}
}
if (rep != OPT && (rep != FIXED || i > 0)) {
fputs(c_close, f); /* Close for */
if (i > 0) {
fputs(c_close, f);/* Close Register ... */
}
}
return t_after(rep, i, gettout(q));
}
STATIC
genswhead(q, rep, cnt, safety, ispushed) register p_term q; {
/*
* Generate switch statement for term q
*/
register FILE *f;
p_set p1;
p_set setalloc();
int hulp1, hulp2;
int safeterm;
int termissafe = 0;
f = fpars;
if (rep == PLUS) safeterm = gettout(q);
else if (rep == OPT) safeterm = safety;
else /* if (rep == STAR) */ safeterm = max(safety, gettout(q));
hulp2 = nlabel++;
fprintf(f, "L_%d : ", hulp2);
fputs("switch(LLcsymb) {\n", f);
if (q->t_flags & RESOLVER) {
hulp1 = nlabel++;
p1 = setalloc();
setunion(p1,q->t_first);
setintersect(p1,q->t_follow);
/*
* p1 now points to a set containing the conflicting
* symbols
*/
setminus(q->t_first, p1);
setminus(q->t_follow, p1);
setminus(q->t_contains, p1);
gencases(p1);
free((p_mem) p1);
controlline();
fputs("if (", f);
getaction(0);
fprintf(f, ") goto L_%d;\n", hulp1);
}
if (safeterm == 0 || (!onerror && safeterm <= SAFESCANDONE)) {
fputs("default:\n", f);
termissafe = 1;
}
else gencases(q->t_follow);
if (rep == OPT) genpop(ispushed);
fputs(c_break, f);
if (! termissafe) {
int i;
static int nvar;
assert(ispushed != NOPOP);
if (ispushed >= 0) i = -ispushed;
else i = tokens[-(ispushed+1)].t_tokno;
++nvar;
fprintf(f,"default:{int LL_%d=LLnext(%d);\n;if (!LL_%d) {\n",
nvar, i, nvar);
if (rep == OPT) genpop(ispushed);
fputs(c_break, f);
fputs(c_close, f);
fprintf(f,"else if (LL_%d & 1) goto L_%d;}\n",nvar, hulp2);
}
if (!onerror && (q->t_flags & PERSISTENT) && safeterm != SAFE) {
gencases(q->t_contains);
}
else gencases(q->t_first);
if (q->t_flags & RESOLVER) {
fprintf(f, "L_%d : ;\n", hulp1);
}
if (rep == OPT) genpop(ispushed);
if (cnt > 0) {
assert(ispushed != NOPOP);
fputs(rep == STAR ? "if (!LL_i) " : "if (LL_i == 1) ", f);
genpop(ispushed);
}
return safeterm;
}
STATIC
gencases(setp) register p_set setp; {
/*
* setp points to a bitset indicating which cases must
* be generated.
* YECH, the PCC compiler does not accept many cases without statements
* inbetween, so after every case label an empty statement is
* generated.
* The C-grammar used by PCC is really stupid on this point :
* it contains the rule
* statement : label statement
* which is right-recursive, and as is well known, LALR parsers don't
* handle these things very good.
* The grammar should have been written :
* labeledstatement : labels statement ;
* labels : labels label | ;
*/
register p_token p;
register int i;
for (i = 0, p = tokens; i < ntokens; i++, p++) {
if (IN(setp,i)) {
fprintf(fpars,
p->t_tokno<0400 ? "case /* '%s' */ %d : ;\n"
: "case /* %s */ %d : ;\n",
p->t_string, i);
}
}
}
static char namebuf[20];
STATIC string
genname(s) string s; {
/*
* Generate a target file name from the
* source file name s.
*/
register string c,d;
c = namebuf;
while (*s) {
if (*s == '/') {
while (*s == '/') s++;
if (*s) c = namebuf;
else break;
}
*c++ = *s++;
}
for (d = c; --d > namebuf;) if (*d == '.') break;
if (d == namebuf) d = c;
if (d >= &namebuf[12]) {
fatal(0,"%s : filename too long",namebuf);
}
*d++ = '.';
*d++ = 'c';
*d = '\0';
return namebuf;
}
STATIC
genpush(d) {
genincrdecr("incr", d);
}
STATIC
genincrdecr(s, d) string s; {
if (d == NOPOP) return;
if (d >= 0) {
fprintf(fpars, "LLs%s(%d);\n", s, d / nbytes);
return;
}
fprintf(fpars, "LLt%s(%d);\n", s, -(d + 1));
}
STATIC
genpop(d) {
genincrdecr("decr", d);
}