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Remove byacc, which is obsolete and unused.

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This commit is contained in:
David Given 2022-07-18 20:49:05 +02:00
parent af72a7accb
commit 3a417ef5a0
19 changed files with 0 additions and 6847 deletions
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25
util/byacc/ACKNOWLEDGEMENTS
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Berkeley Yacc owes much to the unflagging efforts of Keith Bostic.
His badgering kept me working on it long after I was ready to quit.
Berkeley Yacc is based on the excellent algorithm for computing LALR(1)
lookaheads developed by Tom Pennello and Frank DeRemer. The algorithm is
described in their almost impenetrable article in TOPLAS 4,4.
Finally, much of the credit for the latest version must go to those
who pointed out deficiencies of my earlier releases. Among the most
prolific contributors were
Benson I. Margulies
Dave Gentzel
Antoine Verheijen
Peter S. Housel
Dale Smith
Ozan Yigit
John Campbell
Bill Sommerfeld
Paul Hilfinger
Gary Bridgewater
Dave Bakken
Dan Lanciani
Richard Sargent
Parag Patel

46
util/byacc/NEW_FEATURES
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The -r option has been implemented. The -r option tells Yacc to
put the read-only tables in y.tab.c and the code and variables in
y.code.c. Keith Bostic asked for this option so that :yyfix could be
eliminated.
The -l and -t options have been implemented. The -l option tells
Yacc not to include #line directives in the code it produces. The -t
option causes debugging code to be included in the compiled parser.
The code for error recovery has been changed to implement the same
algorithm as AT&T Yacc. There will still be differences in the way
error recovery works because AT&T Yacc uses more default reductions
than Berkeley Yacc.
The environment variable TMPDIR determines the directory where
temporary files will be created. If TMPDIR is defined, temporary files
will be created in the directory whose pathname is the value of TMPDIR.
By default, temporary files are created in /tmp.
The keywords are now case-insensitive. For example, %nonassoc,
%NONASSOC, %NonAssoc, and %nOnAsSoC are all equivalent.
Commas and semicolons that are not part of C code are treated as
commentary.
Line-end comments, as in BCPL, are permitted. Line-end comments
begin with // and end at the next end-of-line. Line-end comments are
permitted in C code; they are converted to C comments on output.
The form of y.output files has been changed to look more like
those produced by AT&T Yacc.
A new kind of declaration has been added. The form of the declaration
is
%ident string
where string is a sequence of characters begining with a double quote
and ending with either a double quote or the next end-of-line, whichever
comes first. The declaration will cause a #ident directive to be written
near the start of the output file.
If a parser has been compiled with debugging code, that code can be
enabled by setting an environment variable. If the environment variable
YYDEBUG is set to 0, debugging output is suppressed. If it is set to 1,
debugging output is written to standard output.

3
util/byacc/NO_WARRANTY
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Berkeley Yacc is distributed with no warranty whatever. The author
and any other contributors take no responsibility for the consequences of
its use.

23
util/byacc/README
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Berkeley Yacc is an LALR(1) parser generator. Berkeley Yacc has been made
as compatible as possible with AT&T Yacc. Berkeley Yacc can accept any input
specification that conforms to the AT&T Yacc documentation. Specifications
that take advantage of undocumented features of AT&T Yacc will probably be
rejected.
Berkeley Yacc is distributed with no warranty whatever. The code is certain
to contain errors. Neither the author nor any contributor takes responsibility
for any consequences of its use.
Berkeley Yacc is in the public domain. The data structures and algorithms
used in Berkeley Yacc are all either taken from documents available to the
general public or are inventions of the author. Anyone may freely distribute
source or binary forms of Berkeley Yacc whether unchanged or modified.
Distributers may charge whatever fees they can obtain for Berkeley Yacc.
Programs generated by Berkeley Yacc may be distributed freely.
Please report bugs to
corbett@berkeley.edu
Include a small example if possible. Please include the banner string from
skeleton.c with the bug report. Do not expect rapid responses.

265
util/byacc/closure.c
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#include "defs.h"
short *itemset;
short *itemsetend;
unsigned *ruleset;
static unsigned *first_derives;
static unsigned *EFF;
set_EFF()
{
register unsigned *row;
register int symbol;
register short *sp;
register int rowsize;
register int i;
register int rule;
rowsize = WORDSIZE(nvars);
EFF = NEW2(nvars * rowsize, unsigned);
row = EFF;
for (i = start_symbol; i < nsyms; i++)
{
sp = derives[i];
for (rule = *sp; rule > 0; rule = *++sp)
{
symbol = ritem[rrhs[rule]];
if (ISVAR(symbol))
{
symbol -= start_symbol;
SETBIT(row, symbol);
}
}
row += rowsize;
}
reflexive_transitive_closure(EFF, nvars);
#ifdef DEBUG
print_EFF();
#endif
}
set_first_derives()
{
register unsigned *rrow;
register unsigned *vrow;
register int j;
register unsigned mask;
register unsigned cword;
register short *rp;
int rule;
int i;
int rulesetsize;
int varsetsize;
rulesetsize = WORDSIZE(nrules);
varsetsize = WORDSIZE(nvars);
first_derives = NEW2(nvars * rulesetsize, unsigned) - ntokens * rulesetsize;
set_EFF();
rrow = first_derives + ntokens * rulesetsize;
for (i = start_symbol; i < nsyms; i++)
{
vrow = EFF + ((i - ntokens) * varsetsize);
cword = *vrow++;
mask = 1;
for (j = start_symbol; j < nsyms; j++)
{
if (cword & mask)
{
rp = derives[j];
while ((rule = *rp++) >= 0)
{
SETBIT(rrow, rule);
}
}
mask <<= 1;
if (mask == 0)
{
cword = *vrow++;
mask = 1;
}
}
vrow += varsetsize;
rrow += rulesetsize;
}
#ifdef DEBUG
print_first_derives();
#endif
FREE(EFF);
}
closure(nucleus, n)
short *nucleus;
int n;
{
register int ruleno;
register unsigned word;
register unsigned mask;
register short *csp;
register unsigned *dsp;
register unsigned *rsp;
register int rulesetsize;
short *csend;
unsigned *rsend;
int symbol;
int itemno;
rulesetsize = WORDSIZE(nrules);
rsp = ruleset;
rsend = ruleset + rulesetsize;
for (rsp = ruleset; rsp < rsend; rsp++)
*rsp = 0;
csend = nucleus + n;
for (csp = nucleus; csp < csend; ++csp)
{
symbol = ritem[*csp];
if (ISVAR(symbol))
{
dsp = first_derives + symbol * rulesetsize;
rsp = ruleset;
while (rsp < rsend)
*rsp++ |= *dsp++;
}
}
ruleno = 0;
itemsetend = itemset;
csp = nucleus;
for (rsp = ruleset; rsp < rsend; ++rsp)
{
word = *rsp;
if (word == 0)
ruleno += BITS_PER_WORD;
else
{
mask = 1;
while (mask)
{
if (word & mask)
{
itemno = rrhs[ruleno];
while (csp < csend && *csp < itemno)
*itemsetend++ = *csp++;
*itemsetend++ = itemno;
while (csp < csend && *csp == itemno)
++csp;
}
mask <<= 1;
++ruleno;
}
}
}
while (csp < csend)
*itemsetend++ = *csp++;
#ifdef DEBUG
print_closure(n);
#endif
}
finalize_closure()
{
FREE(itemset);
FREE(ruleset);
FREE(first_derives + ntokens * WORDSIZE(nrules));
}
#ifdef DEBUG
print_closure(n)
int n;
{
register short *isp;
printf("\n\nn = %d\n\n", n);
for (isp = itemset; isp < itemsetend; isp++)
printf(" %d\n", *isp);
}
print_EFF()
{
register int i, j, k;
register unsigned *rowp;
register unsigned word;
register unsigned mask;
printf("\n\nEpsilon Free Firsts\n");
for (i = start_symbol; i < nsyms; i++)
{
printf("\n%s", symbol_name[i]);
rowp = EFF + ((i - start_symbol) * WORDSIZE(nvars));
word = *rowp++;
mask = 1;
for (j = 0; j < nvars; j++)
{
if (word & mask)
printf(" %s", symbol_name[start_symbol + j]);
mask <<= 1;
if (mask == 0)
{
word = *rowp++;
mask = 1;
}
}
}
}
print_first_derives()
{
register int i;
register int j;
register unsigned *rp;
register unsigned cword;
register unsigned mask;
printf("\n\n\nFirst Derives\n");
for (i = start_symbol; i < nsyms; i++)
{
printf("\n%s derives\n", symbol_name[i]);
rp = first_derives + i * WORDSIZE(nrules);
cword = *rp++;
mask = 1;
for (j = 0; j <= nrules; j++)
{
if (cword & mask)
printf(" %d\n", j);
mask <<= 1;
if (mask == 0)
{
cword = *rp++;
mask = 1;
}
}
}
fflush(stdout);
}
#endif

273
util/byacc/defs.h
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#include <assert.h>
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
/* machine dependent definitions */
/* the following definitions are for the VAX */
/* they might have to be changed for other machines */
/* MAXCHAR is the largest unsigned character value */
/* MAXSHORT is the largest value of a C short */
/* MAXTABLE is the maximum table size */
/* BITS_PER_WORD is the number of bits in a C unsigned */
/* WORDSIZE computes the number of words needed to */
/* store n bits */
/* BIT returns the value of the n-th bit starting */
/* from r (0-indexed) */
/* SETBIT sets the n-th bit starting from r */
#define MAXCHAR 255
#define MAXSHORT 32767
#define MAXTABLE 32500
#define BITS_PER_WORD ((int)sizeof(int)<<3)
#define WORDSIZE(n) (((n)+(BITS_PER_WORD-1))/BITS_PER_WORD)
#define BIT(r, n) ((((r)[(n)/BITS_PER_WORD]) >> ((n) & (BITS_PER_WORD-1))) & 1)
#define SETBIT(r, n) ((r)[(n)/BITS_PER_WORD] |= (1 << ((n) & (BITS_PER_WORD-1))))
/* character names */
#define NUL '\0' /* the null character */
#define NEWLINE '\n' /* line feed */
#define SP ' ' /* space */
#define BS '\b' /* backspace */
#define HT '\t' /* horizontal tab */
#define VT '\013' /* vertical tab */
#define CR '\r' /* carriage return */
#define FF '\f' /* form feed */
#define QUOTE '\'' /* single quote */
#define DOUBLE_QUOTE '\"' /* double quote */
#define BACKSLASH '\\' /* backslash */
/* defines for constructing filenames */
#define CODE_SUFFIX ".code.c"
#define DEFINES_SUFFIX ".tab.h"
#define OUTPUT_SUFFIX ".tab.c"
#define VERBOSE_SUFFIX ".output"
/* keyword codes */
#define TOKEN 0
#define LEFT 1
#define RIGHT 2
#define NONASSOC 3
#define MARK 4
#define TEXT 5
#define TYPE 6
#define START 7
#define UNION 8
#define IDENT 9
/* symbol classes */
#define UNKNOWN 0
#define TERM 1
#define NONTERM 2
/* the undefined value */
#define UNDEFINED (-1)
/* action codes */
#define SHIFT 1
#define REDUCE 2
/* character macros */
#define IS_IDENT(c) (isalnum(c) || (c) == '_' || (c) == '.' || (c) == '$')
#define IS_OCTAL(c) ((c) >= '0' && (c) <= '7')
#define NUMERIC_VALUE(c) ((c) - '0')
/* symbol macros */
#define ISTOKEN(s) ((s) < start_symbol)
#define ISVAR(s) ((s) >= start_symbol)
/* storage allocation macros */
#define CALLOC(k,n) (calloc((unsigned)(k),(unsigned)(n)))
#define FREE(x) (free((char*)(x)))
#define MALLOC(n) (malloc((unsigned)(n)))
#define NEW(t) ((t*)allocate(sizeof(t)))
#define NEW2(n,t) ((t*)allocate((unsigned)((n)*sizeof(t))))
#define REALLOC(p,n) (realloc((char*)(p),(unsigned)(n)))
/* the structure of a symbol table entry */
typedef struct bucket bucket;
struct bucket
{
struct bucket *link;
struct bucket *next;
char *name;
char *tag;
short value;
short index;
short prec;
char class;
char assoc;
};
/* the structure of the LR(0) state machine */
typedef struct core core;
struct core
{
struct core *next;
struct core *link;
short number;
short accessing_symbol;
short nitems;
short items[1];
};
/* the structure used to record shifts */
typedef struct shifts shifts;
struct shifts
{
struct shifts *next;
short number;
short nshifts;
short shift[1];
};
/* the structure used to store reductions */
typedef struct reductions reductions;
struct reductions
{
struct reductions *next;
short number;
short nreds;
short rules[1];
};
/* the structure used to represent parser actions */
typedef struct action action;
struct action
{
struct action *next;
short symbol;
short number;
short prec;
char action_code;
char assoc;
char suppressed;
};
/* global variables */
extern char dflag;
extern char lflag;
extern char rflag;
extern char tflag;
extern char vflag;
extern char *myname;
extern char *cptr;
extern char *line;
extern int lineno;
extern int outline;
extern char *banner[];
extern char *tables[];
extern char *header[];
extern char *body[];
extern char *trailer[];
extern char *action_file_name;
extern char *code_file_name;
extern char *defines_file_name;
extern char *input_file_name;
extern char *output_file_name;
extern char *text_file_name;
extern char *union_file_name;
extern char *verbose_file_name;
extern FILE *action_file;
extern FILE *code_file;
extern FILE *defines_file;
extern FILE *input_file;
extern FILE *output_file;
extern FILE *text_file;
extern FILE *union_file;
extern FILE *verbose_file;
extern int nitems;
extern int nrules;
extern int nsyms;
extern int ntokens;
extern int nvars;
extern int ntags;
extern char unionized;
extern char line_format[];
extern int start_symbol;
extern char **symbol_name;
extern short *symbol_value;
extern short *symbol_prec;
extern char *symbol_assoc;
extern short *ritem;
extern short *rlhs;
extern short *rrhs;
extern short *rprec;
extern char *rassoc;
extern short **derives;
extern char *nullable;
extern bucket *first_symbol;
extern bucket *last_symbol;
extern int nstates;
extern core *first_state;
extern shifts *first_shift;
extern reductions *first_reduction;
extern short *accessing_symbol;
extern core **state_table;
extern shifts **shift_table;
extern reductions **reduction_table;
extern unsigned *LA;
extern short *LAruleno;
extern short *lookaheads;
extern short *goto_map;
extern short *from_state;
extern short *to_state;
extern action **parser;
extern int SRtotal;
extern int RRtotal;
extern short *SRconflicts;
extern short *RRconflicts;
extern short *defred;
extern short *rules_used;
extern short nunused;
extern short final_state;
/* global functions */
extern char *allocate();
extern bucket *lookup();
extern bucket *make_bucket();

317
util/byacc/error.c
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/* routines for printing error messages */
#include "defs.h"
fatal(msg)
char *msg;
{
fprintf(stderr, "%s: f - %s\n", myname, msg);
done(2);
}
no_space()
{
fprintf(stderr, "%s: f - out of space\n", myname);
done(2);
}
open_error(filename)
char *filename;
{
fprintf(stderr, "%s: f - cannot open \"%s\"\n", myname, filename);
done(2);
}
unexpected_EOF()
{
fprintf(stderr, "%s: e - line %d of \"%s\", unexpected end-of-file\n",
myname, lineno, input_file_name);
done(1);
}
print_pos(st_line, st_cptr)
char *st_line;
char *st_cptr;
{
register char *s;
if (st_line == 0) return;
for (s = st_line; *s != '\n'; ++s)
{
if (isprint(*s) || *s == '\t')
putc(*s, stderr);
else
putc('?', stderr);
}
putc('\n', stderr);
for (s = st_line; s < st_cptr; ++s)
{
if (*s == '\t')
putc('\t', stderr);
else
putc(' ', stderr);
}
putc('^', stderr);
putc('\n', stderr);
}
syntax_error(st_lineno, st_line, st_cptr)
int st_lineno;
char *st_line;
char *st_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", syntax error\n",
myname, st_lineno, input_file_name);
print_pos(st_line, st_cptr);
done(1);
}
unterminated_comment(c_lineno, c_line, c_cptr)
int c_lineno;
char *c_line;
char *c_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", unmatched /*\n",
myname, c_lineno, input_file_name);
print_pos(c_line, c_cptr);
done(1);
}
unterminated_string(s_lineno, s_line, s_cptr)
int s_lineno;
char *s_line;
char *s_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", unterminated string\n",
myname, s_lineno, input_file_name);
print_pos(s_line, s_cptr);
done(1);
}
unterminated_text(t_lineno, t_line, t_cptr)
int t_lineno;
char *t_line;
char *t_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", unmatched %%{\n",
myname, t_lineno, input_file_name);
print_pos(t_line, t_cptr);
done(1);
}
unterminated_union(u_lineno, u_line, u_cptr)
int u_lineno;
char *u_line;
char *u_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", unterminated %%union \
declaration\n", myname, u_lineno, input_file_name);
print_pos(u_line, u_cptr);
done(1);
}
over_unionized(u_cptr)
char *u_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", too many %%union \
declarations\n", myname, lineno, input_file_name);
print_pos(line, u_cptr);
done(1);
}
illegal_tag(t_lineno, t_line, t_cptr)
int t_lineno;
char *t_line;
char *t_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", illegal tag\n",
myname, t_lineno, input_file_name);
print_pos(t_line, t_cptr);
done(1);
}
illegal_character(c_cptr)
char *c_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", illegal character\n",
myname, lineno, input_file_name);
print_pos(line, c_cptr);
done(1);
}
used_reserved(s)
char *s;
{
fprintf(stderr, "%s: e - line %d of \"%s\", illegal use of reserved symbol \
%s\n", myname, lineno, input_file_name, s);
done(1);
}
tokenized_start(s)
char *s;
{
fprintf(stderr, "%s: e - line %d of \"%s\", the start symbol %s cannot be \
declared to be a token\n", myname, lineno, input_file_name, s);
done(1);
}
retyped_warning(s)
char *s;
{
fprintf(stderr, "%s: w - line %d of \"%s\", the type of %s has been \
redeclared\n", myname, lineno, input_file_name, s);
}
reprec_warning(s)
char *s;
{
fprintf(stderr, "%s: w - line %d of \"%s\", the precedence of %s has been \
redeclared\n", myname, lineno, input_file_name, s);
}
revalued_warning(s)
char *s;
{
fprintf(stderr, "%s: w - line %d of \"%s\", the value of %s has been \
redeclared\n", myname, lineno, input_file_name, s);
}
terminal_start(s)
char *s;
{
fprintf(stderr, "%s: e - line %d of \"%s\", the start symbol %s is a \
token\n", myname, lineno, input_file_name, s);
done(1);
}
restarted_warning()
{
fprintf(stderr, "%s: w - line %d of \"%s\", the start symbol has been \
redeclared\n", myname, lineno, input_file_name);
}
no_grammar()
{
fprintf(stderr, "%s: e - line %d of \"%s\", no grammar has been \
specified\n", myname, lineno, input_file_name);
done(1);
}
terminal_lhs(s_lineno)
int s_lineno;
{
fprintf(stderr, "%s: e - line %d of \"%s\", a token appears on the lhs \
of a production\n", myname, s_lineno, input_file_name);
done(1);
}
prec_redeclared()
{
fprintf(stderr, "%s: w - line %d of \"%s\", conflicting %%prec \
specifiers\n", myname, lineno, input_file_name);
}
unterminated_action(a_lineno, a_line, a_cptr)
int a_lineno;
char *a_line;
char *a_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", unterminated action\n",
myname, a_lineno, input_file_name);
print_pos(a_line, a_cptr);
done(1);
}
dollar_warning(a_lineno, i)
int a_lineno;
int i;
{
fprintf(stderr, "%s: w - line %d of \"%s\", $%d references beyond the \
end of the current rule\n", myname, a_lineno, input_file_name, i);
}
dollar_error(a_lineno, a_line, a_cptr)
int a_lineno;
char *a_line;
char *a_cptr;
{
fprintf(stderr, "%s: e - line %d of \"%s\", illegal $-name\n",
myname, a_lineno, input_file_name);
print_pos(a_line, a_cptr);
done(1);
}
untyped_lhs()
{
fprintf(stderr, "%s: e - line %d of \"%s\", $$ is untyped\n",
myname, lineno, input_file_name);
done(1);
}
untyped_rhs(i, s)
int i;
char *s;
{
fprintf(stderr, "%s: e - line %d of \"%s\", $%d (%s) is untyped\n",
myname, lineno, input_file_name, i, s);
done(1);
}
unknown_rhs(i)
int i;
{
fprintf(stderr, "%s: e - line %d of \"%s\", $%d is untyped\n",
myname, lineno, input_file_name, i);
done(1);
}
default_action_warning()
{
fprintf(stderr, "%s: w - line %d of \"%s\", the default action assigns an \
undefined value to $$\n", myname, lineno, input_file_name);
}
undefined_goal(s)
char *s;
{
fprintf(stderr, "%s: e - the start symbol %s is undefined\n", myname, s);
done(1);
}
undefined_symbol_warning(s)
char *s;
{
fprintf(stderr, "%s: w - the symbol %s is undefined\n", myname, s);
}

638
util/byacc/lalr.c
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#include "defs.h"
typedef
struct shorts
{
struct shorts *next;
short value;
}
shorts;
int tokensetsize;
short *lookaheads;
short *LAruleno;
unsigned *LA;
short *accessing_symbol;
core **state_table;
shifts **shift_table;
reductions **reduction_table;
short *goto_map;
short *from_state;
short *to_state;
short **transpose();
static int infinity;
static int maxrhs;
static int ngotos;
static unsigned *F;
static short **includes;
static shorts **lookback;
static short **R;
static short *INDEX;
static short *VERTICES;
static int top;
lalr()
{
tokensetsize = WORDSIZE(ntokens);
set_state_table();
set_accessing_symbol();
set_shift_table();
set_reduction_table();
set_maxrhs();
initialize_LA();
set_goto_map();
initialize_F();
build_relations();
compute_FOLLOWS();
compute_lookaheads();
}
set_state_table()
{
register core *sp;
state_table = NEW2(nstates, core *);
for (sp = first_state; sp; sp = sp->next)
state_table[sp->number] = sp;
}
set_accessing_symbol()
{
register core *sp;
accessing_symbol = NEW2(nstates, short);
for (sp = first_state; sp; sp = sp->next)
accessing_symbol[sp->number] = sp->accessing_symbol;
}
set_shift_table()
{
register shifts *sp;
shift_table = NEW2(nstates, shifts *);
for (sp = first_shift; sp; sp = sp->next)
shift_table[sp->number] = sp;
}
set_reduction_table()
{
register reductions *rp;
reduction_table = NEW2(nstates, reductions *);
for (rp = first_reduction; rp; rp = rp->next)
reduction_table[rp->number] = rp;
}
set_maxrhs()
{
register short *itemp;
register short *item_end;
register int length;
register int max;
length = 0;
max = 0;
item_end = ritem + nitems;
for (itemp = ritem; itemp < item_end; itemp++)
{
if (*itemp >= 0)
{
length++;
}
else
{
if (length > max) max = length;
length = 0;
}
}
maxrhs = max;
}
initialize_LA()
{
register int i, j, k;
register reductions *rp;
lookaheads = NEW2(nstates + 1, short);
k = 0;
for (i = 0; i < nstates; i++)
{
lookaheads[i] = k;
rp = reduction_table[i];
if (rp)
k += rp->nreds;
}
lookaheads[nstates] = k;
LA = NEW2(k * tokensetsize, unsigned);
LAruleno = NEW2(k, short);
lookback = NEW2(k, shorts *);
k = 0;
for (i = 0; i < nstates; i++)
{
rp = reduction_table[i];
if (rp)
{
for (j = 0; j < rp->nreds; j++)
{
LAruleno[k] = rp->rules[j];
k++;
}
}
}
}
set_goto_map()
{
register shifts *sp;
register int i;
register int symbol;
register int k;
register short *temp_map;
register int state2;
register int state1;
goto_map = NEW2(nvars + 1, short) - ntokens;
temp_map = NEW2(nvars + 1, short) - ntokens;
ngotos = 0;
for (sp = first_shift; sp; sp = sp->next)
{
for (i = sp->nshifts - 1; i >= 0; i--)
{
symbol = accessing_symbol[sp->shift[i]];
if (ISTOKEN(symbol)) break;
if (ngotos == MAXSHORT)
fatal("too many gotos");
ngotos++;
goto_map[symbol]++;
}
}
k = 0;
for (i = ntokens; i < nsyms; i++)
{
temp_map[i] = k;
k += goto_map[i];
}
for (i = ntokens; i < nsyms; i++)
goto_map[i] = temp_map[i];
goto_map[nsyms] = ngotos;
temp_map[nsyms] = ngotos;
from_state = NEW2(ngotos, short);
to_state = NEW2(ngotos, short);
for (sp = first_shift; sp; sp = sp->next)
{
state1 = sp->number;
for (i = sp->nshifts - 1; i >= 0; i--)
{
state2 = sp->shift[i];
symbol = accessing_symbol[state2];
if (ISTOKEN(symbol)) break;
k = temp_map[symbol]++;
from_state[k] = state1;
to_state[k] = state2;
}
}
FREE(temp_map + ntokens);
}
/* Map_goto maps a state/symbol pair into its numeric representation. */
int
map_goto(state, symbol)
int state;
int symbol;
{
register int high;
register int low;
register int middle;
register int s;
low = goto_map[symbol];
high = goto_map[symbol + 1];
for (;;)
{
assert(low <= high);
middle = (low + high) >> 1;
s = from_state[middle];
if (s == state)
return (middle);
else if (s < state)
low = middle + 1;
else
high = middle - 1;
}
}
initialize_F()
{
register int i;
register int j;
register int k;
register shifts *sp;
register short *edge;
register unsigned *rowp;
register short *rp;
register short **reads;
register int nedges;
register int stateno;
register int symbol;
register int nwords;
nwords = ngotos * tokensetsize;
F = NEW2(nwords, unsigned);
reads = NEW2(ngotos, short *);
edge = NEW2(ngotos + 1, short);
nedges = 0;
rowp = F;
for (i = 0; i < ngotos; i++)
{
stateno = to_state[i];
sp = shift_table[stateno];
if (sp)
{
k = sp->nshifts;
for (j = 0; j < k; j++)
{
symbol = accessing_symbol[sp->shift[j]];
if (ISVAR(symbol))
break;
SETBIT(rowp, symbol);
}
for (; j < k; j++)
{
symbol = accessing_symbol[sp->shift[j]];
if (nullable[symbol])
edge[nedges++] = map_goto(stateno, symbol);
}
if (nedges)
{
reads[i] = rp = NEW2(nedges + 1, short);
for (j = 0; j < nedges; j++)
rp[j] = edge[j];
rp[nedges] = -1;
nedges = 0;
}
}
rowp += tokensetsize;
}
SETBIT(F, 0);
digraph(reads);
for (i = 0; i < ngotos; i++)
{
if (reads[i])
FREE(reads[i]);
}
FREE(reads);
FREE(edge);
}
build_relations()
{
register int i;
register int j;
register int k;
register short *rulep;
register short *rp;
register shifts *sp;
register int length;
register int nedges;
register int done;
register int state1;
register int stateno;
register int symbol1;
register int symbol2;
register short *shortp;
register short *edge;
register short *states;
register short **new_includes;
includes = NEW2(ngotos, short *);
edge = NEW2(ngotos + 1, short);
states = NEW2(maxrhs + 1, short);
for (i = 0; i < ngotos; i++)
{
nedges = 0;
state1 = from_state[i];
symbol1 = accessing_symbol[to_state[i]];
for (rulep = derives[symbol1]; *rulep >= 0; rulep++)
{
length = 1;
states[0] = state1;
stateno = state1;
for (rp = ritem + rrhs[*rulep]; *rp >= 0; rp++)
{
symbol2 = *rp;
sp = shift_table[stateno];
k = sp->nshifts;
for (j = 0; j < k; j++)
{
stateno = sp->shift[j];
if (accessing_symbol[stateno] == symbol2) break;
}
states[length++] = stateno;
}
add_lookback_edge(stateno, *rulep, i);
length--;
done = 0;
while (!done)
{
done = 1;
rp--;
if (ISVAR(*rp))
{
stateno = states[--length];
edge[nedges++] = map_goto(stateno, *rp);
if (nullable[*rp] && length > 0) done = 0;
}
}
}
if (nedges)
{
includes[i] = shortp = NEW2(nedges + 1, short);
for (j = 0; j < nedges; j++)
shortp[j] = edge[j];
shortp[nedges] = -1;
}
}
new_includes = transpose(includes, ngotos);
for (i = 0; i < ngotos; i++)
if (includes[i])
FREE(includes[i]);
FREE(includes);
includes = new_includes;
FREE(edge);
FREE(states);
}
add_lookback_edge(stateno, ruleno, gotono)
int stateno, ruleno, gotono;
{
register int i, k;
register int found;
register shorts *sp;
i = lookaheads[stateno];
k = lookaheads[stateno + 1];
found = 0;
while (!found && i < k)
{
if (LAruleno[i] == ruleno)
found = 1;
else
++i;
}
assert(found);
sp = NEW(shorts);
sp->next = lookback[i];
sp->value = gotono;
lookback[i] = sp;
}
short **
transpose(R, n)
short **R;
int n;
{
register short **new_R;
register short **temp_R;
register short *nedges;
register short *sp;
register int i;
register int k;
nedges = NEW2(n, short);
for (i = 0; i < n; i++)
{
sp = R[i];
if (sp)
{
while (*sp >= 0)
nedges[*sp++]++;
}
}
new_R = NEW2(n, short *);
temp_R = NEW2(n, short *);
for (i = 0; i < n; i++)
{
k = nedges[i];
if (k > 0)
{
sp = NEW2(k + 1, short);
new_R[i] = sp;
temp_R[i] = sp;
sp[k] = -1;
}
}
FREE(nedges);
for (i = 0; i < n; i++)
{
sp = R[i];
if (sp)
{
while (*sp >= 0)
*temp_R[*sp++]++ = i;
}
}
FREE(temp_R);
return (new_R);
}
compute_FOLLOWS()
{
digraph(includes);
}
compute_lookaheads()
{
register int i, n;
register unsigned *fp1, *fp2, *fp3;
register shorts *sp, *next;
register unsigned *rowp;
rowp = LA;
n = lookaheads[nstates];
for (i = 0; i < n; i++)
{
fp3 = rowp + tokensetsize;
for (sp = lookback[i]; sp; sp = sp->next)
{
fp1 = rowp;
fp2 = F + tokensetsize * sp->value;
while (fp1 < fp3)
*fp1++ |= *fp2++;
}
rowp = fp3;
}
for (i = 0; i < n; i++)
for (sp = lookback[i]; sp; sp = next)
{
next = sp->next;
FREE(sp);
}
FREE(lookback);
FREE(F);
}
digraph(relation)
short **relation;
{
register int i;
infinity = ngotos + 2;
INDEX = NEW2(ngotos + 1, short);
VERTICES = NEW2(ngotos + 1, short);
top = 0;
R = relation;
for (i = 0; i < ngotos; i++)
INDEX[i] = 0;
for (i = 0; i < ngotos; i++)
{
if (INDEX[i] == 0 && R[i])
traverse(i);
}
FREE(INDEX);
FREE(VERTICES);
}
traverse(i)
register int i;
{
register unsigned *fp1;
register unsigned *fp2;
register unsigned *fp3;
register int j;
register short *rp;
int height;
unsigned *base;
VERTICES[++top] = i;
INDEX[i] = height = top;
base = F + i * tokensetsize;
fp3 = base + tokensetsize;
rp = R[i];
if (rp)
{
while ((j = *rp++) >= 0)
{
if (INDEX[j] == 0)
traverse(j);
if (INDEX[i] > INDEX[j])
INDEX[i] = INDEX[j];
fp1 = base;
fp2 = F + j * tokensetsize;
while (fp1 < fp3)
*fp1++ |= *fp2++;
}
}
if (INDEX[i] == height)
{
for (;;)
{
j = VERTICES[top--];
INDEX[j] = infinity;
if (i == j)
break;
fp1 = base;
fp2 = F + j * tokensetsize;
while (fp1 < fp3)
*fp2++ = *fp1++;
}
}
}

598
util/byacc/lr0.c
View file

@ -1,598 +0,0 @@
#include "defs.h"
extern short *itemset;
extern short *itemsetend;
extern unsigned *ruleset;
int nstates;
core *first_state;
shifts *first_shift;
reductions *first_reduction;
int get_state();
core *new_state();
static core **state_set;
static core *this_state;
static core *last_state;
static shifts *last_shift;
static reductions *last_reduction;
static int nshifts;
static short *shift_symbol;
static short *redset;
static short *shiftset;
static short **kernel_base;
static short **kernel_end;
static short *kernel_items;
allocate_itemsets()
{
register short *itemp;
register short *item_end;
register int symbol;
register int i;
register int count;
register int max;
register short *symbol_count;
count = 0;
symbol_count = NEW2(nsyms, short);
item_end = ritem + nitems;
for (itemp = ritem; itemp < item_end; itemp++)
{
symbol = *itemp;
if (symbol >= 0)
{
count++;
symbol_count[symbol]++;
}
}
kernel_base = NEW2(nsyms, short *);
kernel_items = NEW2(count, short);
count = 0;
max = 0;
for (i = 0; i < nsyms; i++)
{
kernel_base[i] = kernel_items + count;
count += symbol_count[i];
if (max < symbol_count[i])
max = symbol_count[i];
}
shift_symbol = symbol_count;
kernel_end = NEW2(nsyms, short *);
}
allocate_storage()
{
allocate_itemsets();
shiftset = NEW2(nsyms, short);
redset = NEW2(nrules + 1, short);
state_set = NEW2(nitems, core *);
}
append_states()
{
register int i;
register int j;
register int symbol;
#ifdef TRACE
fprintf(stderr, "Entering append_states()\n");
#endif
for (i = 1; i < nshifts; i++)
{
symbol = shift_symbol[i];
j = i;
while (j > 0 && shift_symbol[j - 1] > symbol)
{
shift_symbol[j] = shift_symbol[j - 1];
j--;
}
shift_symbol[j] = symbol;
}
for (i = 0; i < nshifts; i++)
{
symbol = shift_symbol[i];
shiftset[i] = get_state(symbol);
}
}
free_storage()
{
FREE(shift_symbol);
FREE(redset);
FREE(shiftset);
FREE(kernel_base);
FREE(kernel_end);
FREE(kernel_items);
FREE(state_set);
}
generate_states()
{
allocate_storage();
itemset = NEW2(nitems, short);
ruleset = NEW2(WORDSIZE(nrules), unsigned);
set_first_derives();
initialize_states();
while (this_state)
{
closure(this_state->items, this_state->nitems);
save_reductions();
new_itemsets();
append_states();
if (nshifts > 0)
save_shifts();
this_state = this_state->next;
}
finalize_closure();
free_storage();
}
int
get_state(symbol)
int symbol;
{
register int key;
register short *isp1;
register short *isp2;
register short *iend;
register core *sp;
register int found;
register int n;
#ifdef TRACE
fprintf(stderr, "Entering get_state(%d)\n", symbol);
#endif
isp1 = kernel_base[symbol];
iend = kernel_end[symbol];
n = iend - isp1;
key = *isp1;
assert(0 <= key && key < nitems);
sp = state_set[key];
if (sp)
{
found = 0;
while (!found)
{
if (sp->nitems == n)
{
found = 1;
isp1 = kernel_base[symbol];
isp2 = sp->items;
while (found && isp1 < iend)
{
if (*isp1++ != *isp2++)
found = 0;
}
}
if (!found)
{
if (sp->link)
{
sp = sp->link;
}
else
{
sp = sp->link = new_state(symbol);
found = 1;
}
}
}
}
else
{
state_set[key] = sp = new_state(symbol);
}
return (sp->number);
}
initialize_states()
{
register int i;
register short *start_derives;
register core *p;
start_derives = derives[start_symbol];
for (i = 0; start_derives[i] >= 0; ++i)
continue;
p = (core *) MALLOC(sizeof(core) + i*sizeof(short));
if (p == 0) no_space();
p->next = 0;
p->link = 0;
p->number = 0;
p->accessing_symbol = 0;
p->nitems = i;
for (i = 0; start_derives[i] >= 0; ++i)
p->items[i] = rrhs[start_derives[i]];
first_state = last_state = this_state = p;
nstates = 1;
}
new_itemsets()
{
register int i;
register int shiftcount;
register short *isp;
register short *ksp;
register int symbol;
for (i = 0; i < nsyms; i++)
kernel_end[i] = 0;
shiftcount = 0;
isp = itemset;
while (isp < itemsetend)
{
i = *isp++;
symbol = ritem[i];
if (symbol > 0)
{
ksp = kernel_end[symbol];
if (!ksp)
{
shift_symbol[shiftcount++] = symbol;
ksp = kernel_base[symbol];
}
*ksp++ = i + 1;
kernel_end[symbol] = ksp;
}
}
nshifts = shiftcount;
}
core *
new_state(symbol)
int symbol;
{
register int n;
register core *p;
register short *isp1;
register short *isp2;
register short *iend;
#ifdef TRACE
fprintf(stderr, "Entering new_state(%d)\n", symbol);
#endif
if (nstates >= MAXSHORT)
fatal("too many states");
isp1 = kernel_base[symbol];
iend = kernel_end[symbol];
n = iend - isp1;
p = (core *) allocate((unsigned) (sizeof(core) + (n - 1) * sizeof(short)));
p->accessing_symbol = symbol;
p->number = nstates;
p->nitems = n;
isp2 = p->items;
while (isp1 < iend)
*isp2++ = *isp1++;
last_state->next = p;
last_state = p;
nstates++;
return (p);
}
/* show_cores is used for debugging */
show_cores()
{
core *p;
int i, j, k, n;
int itemno;
k = 0;
for (p = first_state; p; ++k, p = p->next)
{
if (k) printf("\n");
printf("state %d, number = %d, accessing symbol = %s\n",
k, p->number, symbol_name[p->accessing_symbol]);
n = p->nitems;
for (i = 0; i < n; ++i)
{
itemno = p->items[i];
printf("%4d ", itemno);
j = itemno;
while (ritem[j] >= 0) ++j;
printf("%s :", symbol_name[rlhs[-ritem[j]]]);
j = rrhs[-ritem[j]];
while (j < itemno)
printf(" %s", symbol_name[ritem[j++]]);
printf(" .");
while (ritem[j] >= 0)
printf(" %s", symbol_name[ritem[j++]]);
printf("\n");
fflush(stdout);
}
}
}
/* show_ritems is used for debugging */
show_ritems()
{
int i;
for (i = 0; i < nitems; ++i)
printf("ritem[%d] = %d\n", i, ritem[i]);
}
/* show_rrhs is used for debugging */
show_rrhs()
{
int i;
for (i = 0; i < nrules; ++i)
printf("rrhs[%d] = %d\n", i, rrhs[i]);
}
/* show_shifts is used for debugging */
show_shifts()
{
shifts *p;
int i, j, k;
k = 0;
for (p = first_shift; p; ++k, p = p->next)
{
if (k) printf("\n");
printf("shift %d, number = %d, nshifts = %d\n", k, p->number,
p->nshifts);
j = p->nshifts;
for (i = 0; i < j; ++i)
printf("\t%d\n", p->shift[i]);
}
}
save_shifts()
{
register shifts *p;
register short *sp1;
register short *sp2;
register short *send;
p = (shifts *) allocate((unsigned) (sizeof(shifts) +
(nshifts - 1) * sizeof(short)));
p->number = this_state->number;
p->nshifts = nshifts;
sp1 = shiftset;
sp2 = p->shift;
send = shiftset + nshifts;
while (sp1 < send)
*sp2++ = *sp1++;
if (last_shift)
{
last_shift->next = p;
last_shift = p;
}
else
{
first_shift = p;
last_shift = p;
}
}
save_reductions()
{
register short *isp;
register short *rp1;
register short *rp2;
register int item;
register int count;
register reductions *p;
register short *rend;
count = 0;
for (isp = itemset; isp < itemsetend; isp++)
{
item = ritem[*isp];
if (item < 0)
{
redset[count++] = -item;
}
}
if (count)
{
p = (reductions *) allocate((unsigned) (sizeof(reductions) +
(count - 1) * sizeof(short)));
p->number = this_state->number;
p->nreds = count;
rp1 = redset;
rp2 = p->rules;
rend = rp1 + count;
while (rp1 < rend)
*rp2++ = *rp1++;
if (last_reduction)
{
last_reduction->next = p;
last_reduction = p;
}
else
{
first_reduction = p;
last_reduction = p;
}
}
}
set_derives()
{
register int i, k;
register int lhs;
register short *rules;
derives = NEW2(nsyms, short *);
rules = NEW2(nvars + nrules, short);
k = 0;
for (lhs = start_symbol; lhs < nsyms; lhs++)
{
derives[lhs] = rules + k;
for (i = 0; i < nrules; i++)
{
if (rlhs[i] == lhs)
{
rules[k] = i;
k++;
}
}
rules[k] = -1;
k++;
}
#ifdef DEBUG
print_derives();
#endif
}
free_derives()
{
FREE(derives[start_symbol]);
FREE(derives);
}
#ifdef DEBUG
print_derives()
{
register int i;
register short *sp;
printf("\nDERIVES\n\n");
for (i = start_symbol; i < nsyms; i++)
{
printf("%s derives ", symbol_name[i]);
for (sp = derives[i]; *sp >= 0; sp++)
{
printf(" %d", *sp);
}
putchar('\n');
}
putchar('\n');
}
#endif
set_nullable()
{
register int i, j;
register int empty;
int done;
nullable = MALLOC(nsyms);
if (nullable == 0) no_space();
for (i = 0; i < nsyms; ++i)
nullable[i] = 0;
done = 0;
while (!done)
{
done = 1;
for (i = 1; i < nitems; i++)
{
empty = 1;
while ((j = ritem[i]) >= 0)
{
if (!nullable[j])
empty = 0;
++i;
}
if (empty)
{
j = rlhs[-j];
if (!nullable[j])
{
nullable[j] = 1;
done = 0;
}
}
}
}
#ifdef DEBUG
for (i = 0; i < nsyms; i++)
{
if (nullable[i])
printf("%s is nullable\n", symbol_name[i]);
else
printf("%s is not nullable\n", symbol_name[i]);
}
#endif
}
free_nullable()
{
FREE(nullable);
}
lr0()
{
set_derives();
set_nullable();
generate_states();
}

363
util/byacc/main.c
View file

@ -1,363 +0,0 @@
#include <stdlib.h>
#include <signal.h>
#include "defs.h"
char dflag;
char lflag;
char rflag;
char tflag;
char vflag;
char *file_prefix = "y";
char *myname = "yacc";
char *temp_form = "yacc.XXXXXXX";
int lineno;
int outline;
char *action_file_name;
char *code_file_name;
char *defines_file_name;
char *input_file_name = "";
char *output_file_name;
char *text_file_name;
char *union_file_name;
char *verbose_file_name;
FILE *action_file; /* a temp file, used to save actions associated */
/* with rules until the parser is written */
FILE *code_file; /* y.code.c (used when the -r option is specified) */
FILE *defines_file; /* y.tab.h */
FILE *input_file; /* the input file */
FILE *output_file; /* y.tab.c */
FILE *text_file; /* a temp file, used to save text until all */
/* symbols have been defined */
FILE *union_file; /* a temp file, used to save the union */
/* definition until all symbol have been */
/* defined */
FILE *verbose_file; /* y.output */
int nitems;
int nrules;
int nsyms;
int ntokens;
int nvars;
int start_symbol;
char **symbol_name;
short *symbol_value;
short *symbol_prec;
char *symbol_assoc;
short *ritem;
short *rlhs;
short *rrhs;
short *rprec;
char *rassoc;
short **derives;
char *nullable;
done(k)
int k;
{
if (action_file) { fclose(action_file); unlink(action_file_name); }
if (text_file) { fclose(text_file); unlink(text_file_name); }
if (union_file) { fclose(union_file); unlink(union_file_name); }
exit(k);
}
void
onintr()
{
done(1);
}
set_signals()
{
#ifdef SIGINT
if (signal(SIGINT, SIG_IGN) != SIG_IGN)
signal(SIGINT, onintr);
#endif
#ifdef SIGTERM
if (signal(SIGTERM, SIG_IGN) != SIG_IGN)
signal(SIGTERM, onintr);
#endif
#ifdef SIGHUP
if (signal(SIGHUP, SIG_IGN) != SIG_IGN)
signal(SIGHUP, onintr);
#endif
}
usage()
{
fprintf(stderr, "usage: %s [-dlrtv] [-b file_prefix] filename\n", myname);
exit(1);
}
getargs(argc, argv)
int argc;
char *argv[];
{
register int i;
register char *s;
if (argc > 0) myname = argv[0];
for (i = 1; i < argc; ++i)
{
s = argv[i];
if (*s != '-') break;
switch (*++s)
{
case '\0':
input_file = stdin;
if (i + 1 < argc) usage();
return;
case '-':
++i;
goto no_more_options;
case 'b':
if (*++s)
file_prefix = s;
else if (++i < argc)
file_prefix = argv[i];
else
usage();
continue;
case 'd':
dflag = 1;
break;
case 'l':
lflag = 1;
break;
case 'r':
rflag = 1;
break;
case 't':
tflag = 1;
break;
case 'v':
vflag = 1;
break;
default:
usage();
}
for (;;)
{
switch (*++s)
{
case '\0':
goto end_of_option;
case 'd':
dflag = 1;
break;
case 'l':
lflag = 1;
break;
case 'r':
rflag = 1;
break;
case 't':
tflag = 1;
break;
case 'v':
vflag = 1;
break;
default:
usage();
}
}
end_of_option:;
}
no_more_options:;
if (i + 1 != argc) usage();
input_file_name = argv[i];
}
char *
allocate(n)
unsigned n;
{
register char *p;
p = NULL;
if (n)
{
p = CALLOC(1, n);
if (!p) no_space();
}
return (p);
}
create_file_names()
{
int i, len;
char *tmpdir;
tmpdir = getenv("TMPDIR");
if (tmpdir == 0) tmpdir = "/tmp";
len = strlen(tmpdir);
i = len + 13;
if (len && tmpdir[len-1] != '/')
++i;
action_file_name = MALLOC(i);
if (action_file_name == 0) no_space();
text_file_name = MALLOC(i);
if (text_file_name == 0) no_space();
union_file_name = MALLOC(i);
if (union_file_name == 0) no_space();
strcpy(action_file_name, tmpdir);
strcpy(text_file_name, tmpdir);
strcpy(union_file_name, tmpdir);
if (len && tmpdir[len - 1] != '/')
{
action_file_name[len] = '/';
text_file_name[len] = '/';
union_file_name[len] = '/';
++len;
}
strcpy(action_file_name + len, temp_form);
strcpy(text_file_name + len, temp_form);
strcpy(union_file_name + len, temp_form);
action_file_name[len + 5] = 'a';
text_file_name[len + 5] = 't';
union_file_name[len + 5] = 'u';
close(mkstemp(action_file_name));
close(mkstemp(text_file_name));
close(mkstemp(union_file_name));
len = strlen(file_prefix);
output_file_name = MALLOC(len + 7);
if (output_file_name == 0)
no_space();
strcpy(output_file_name, file_prefix);
strcpy(output_file_name + len, OUTPUT_SUFFIX);
if (rflag)
{
code_file_name = MALLOC(len + 8);
if (code_file_name == 0)
no_space();
strcpy(code_file_name, file_prefix);
strcpy(code_file_name + len, CODE_SUFFIX);
}
else
code_file_name = output_file_name;
if (dflag)
{
defines_file_name = MALLOC(len + 7);
if (defines_file_name == 0)
no_space();
strcpy(defines_file_name, file_prefix);
strcpy(defines_file_name + len, DEFINES_SUFFIX);
}
if (vflag)
{
verbose_file_name = MALLOC(len + 8);
if (verbose_file_name == 0)
no_space();
strcpy(verbose_file_name, file_prefix);
strcpy(verbose_file_name + len, VERBOSE_SUFFIX);
}
}
open_files()
{
create_file_names();
if (input_file == 0)
{
input_file = fopen(input_file_name, "r");
if (input_file == 0)
open_error(input_file_name);
}
action_file = fopen(action_file_name, "w");
if (action_file == 0)
open_error(action_file_name);
text_file = fopen(text_file_name, "w");
if (text_file == 0)
open_error(text_file_name);
if (vflag)
{
verbose_file = fopen(verbose_file_name, "w");
if (verbose_file == 0)
open_error(verbose_file_name);
}
if (dflag)
{
defines_file = fopen(defines_file_name, "w");
if (defines_file == 0)
open_error(defines_file_name);
union_file = fopen(union_file_name, "w");
if (union_file == 0)
open_error(union_file_name);
}
output_file = fopen(output_file_name, "w");
if (output_file == 0)
open_error(output_file_name);
if (rflag)
{
code_file = fopen(code_file_name, "w");
if (code_file == 0)
open_error(code_file_name);
}
else
code_file = output_file;
}
int
main(argc, argv)
int argc;
char *argv[];
{
set_signals();
getargs(argc, argv);
open_files();
reader();
lr0();
lalr();
make_parser();
verbose();
output();
done(0);
/*NOTREACHED*/
}

100
util/byacc/manpage
View file

@ -1,100 +0,0 @@
.\" %W% %R% (Berkeley) %E%
.\"
.TH YACC 1 "July\ 15,\ 1990"
.UC 6
.SH NAME
Yacc \- an LALR(1) parser generator
.SH SYNOPSIS
.B yacc [ -dlrtv ] [ -b
.I prefix
.B ]
.I filename
.SH DESCRIPTION
.I Yacc
reads the grammar specification in the file
.I filename
and generates an LR(1) parser for it.
The parsers consist of a set of LALR(1) parsing tables and a driver routine
written in the C programming language.
.I Yacc
normally writes the parse tables and the driver routine to the file
.IR y.tab.c.
.PP
The following options are available:
.RS
.TP
\fB-b \fIprefix\fR
The
.B -b
option changes the prefix prepended to the output file names to
the string denoted by
.IR prefix.
The default prefix is the character
.IR y.
.TP
.B -d
The \fB-d\fR option causes the header file
.IR y.tab.h
to be written.
.TP
.B -l
If the
.B -l
option is not specified,
.I yacc
will insert \#line directives in the generated code.
The \#line directives let the C compiler relate errors in the
generated code to the user's original code.
If the \fB-l\fR option is specified,
.I yacc
will not insert the \#line directives.
\&\#line directives specified by the user will be retained.
.TP
.B -r
The
.B -r
option causes
.I yacc
to produce separate files for code and tables. The code file
is named
.IR y.code.c,
and the tables file is named
.IR y.tab.c.
.TP
.B -t
The
.B -t
option changes the preprocessor directives generated by
.I yacc
so that debugging statements will be incorporated in the compiled code.
.TP
.B -v
The
.B -v
option causes a human-readable description of the generated parser to
be written to the file
.IR y.output.
.RE
.PP
If the environment variable TMPDIR is set, the string denoted by
TMPDIR will be used as the name of the directory where the temporary
files are created.
.SH FILES
.IR y.code.c
.br
.IR y.tab.c
.br
.IR y.tab.h
.br
.IR y.output
.br
.IR /tmp/yacc.aXXXXXX
.br
.IR /tmp/yacc.tXXXXXX
.br
.IR /tmp/yacc.uXXXXXX
.SH DIAGNOSTICS
If there are rules that are never reduced, the number of such rules is
reported on standard error.
If there are any LALR(1) conflicts, the number of conflicts is reported
on standard error.

357
util/byacc/mkpar.c
View file

@ -1,357 +0,0 @@
#include "defs.h"
action **parser;
int SRtotal;
int RRtotal;
short *SRconflicts;
short *RRconflicts;
short *defred;
short *rules_used;
short nunused;
short final_state;
static int SRcount;
static int RRcount;
extern action *parse_actions();
extern action *get_shifts();
extern action *add_reductions();
extern action *add_reduce();
make_parser()
{
register int i;
parser = NEW2(nstates, action *);
for (i = 0; i < nstates; i++)
parser[i] = parse_actions(i);
find_final_state();
remove_conflicts();
unused_rules();
if (SRtotal + RRtotal > 0) total_conflicts();
defreds();
}
action *
parse_actions(stateno)
register int stateno;
{
register action *actions;
actions = get_shifts(stateno);
actions = add_reductions(stateno, actions);
return (actions);
}
action *
get_shifts(stateno)
int stateno;
{
register action *actions, *temp;
register shifts *sp;
register short *to_state;
register int i, k;
register int symbol;
actions = 0;
sp = shift_table[stateno];
if (sp)
{
to_state = sp->shift;
for (i = sp->nshifts - 1; i >= 0; i--)
{
k = to_state[i];
symbol = accessing_symbol[k];
if (ISTOKEN(symbol))
{
temp = NEW(action);
temp->next = actions;
temp->symbol = symbol;
temp->number = k;
temp->prec = symbol_prec[symbol];
temp->action_code = SHIFT;
temp->assoc = symbol_assoc[symbol];
actions = temp;
}
}
}
return (actions);
}
action *
add_reductions(stateno, actions)
int stateno;
register action *actions;
{
register int i, j, m, n;
register int ruleno, tokensetsize;
register unsigned *rowp;
tokensetsize = WORDSIZE(ntokens);
m = lookaheads[stateno];
n = lookaheads[stateno + 1];
for (i = m; i < n; i++)
{
ruleno = LAruleno[i];
rowp = LA + i * tokensetsize;
for (j = ntokens - 1; j >= 0; j--)
{
if (BIT(rowp, j))
actions = add_reduce(actions, ruleno, j);
}
}
return (actions);
}
action *
add_reduce(actions, ruleno, symbol)
register action *actions;
register int ruleno, symbol;
{
register action *temp, *prev, *next;
prev = 0;
for (next = actions; next && next->symbol < symbol; next = next->next)
prev = next;
while (next && next->symbol == symbol && next->action_code == SHIFT)
{
prev = next;
next = next->next;
}
while (next && next->symbol == symbol &&
next->action_code == REDUCE && next->number < ruleno)
{
prev = next;
next = next->next;
}
temp = NEW(action);
temp->next = next;
temp->symbol = symbol;
temp->number = ruleno;
temp->prec = rprec[ruleno];
temp->action_code = REDUCE;
temp->assoc = rassoc[ruleno];
if (prev)
prev->next = temp;
else
actions = temp;
return (actions);
}
find_final_state()
{
register int goal, i;
register short *to_state;
register shifts *p;
p = shift_table[0];
to_state = p->shift;
goal = ritem[1];
for (i = p->nshifts - 1; i >= 0; --i)
{
final_state = to_state[i];
if (accessing_symbol[final_state] == goal) break;
}
}
unused_rules()
{
register int i;
register action *p;
rules_used = (short *) MALLOC(nrules*sizeof(short));
if (rules_used == 0) no_space();
for (i = 0; i < nrules; ++i)
rules_used[i] = 0;
for (i = 0; i < nstates; ++i)
{
for (p = parser[i]; p; p = p->next)
{
if (p->action_code == REDUCE && p->suppressed == 0)
rules_used[p->number] = 1;
}
}
nunused = 0;
for (i = 3; i < nrules; ++i)
if (!rules_used[i]) ++nunused;
if (nunused)
if (nunused == 1)
fprintf(stderr, "%s: 1 rule never reduced\n", myname);
else
fprintf(stderr, "%s: %d rules never reduced\n", myname, nunused);
}
remove_conflicts()
{
register int i;
register int symbol;
register action *p, *pref;
SRtotal = 0;
RRtotal = 0;
SRconflicts = NEW2(nstates, short);
RRconflicts = NEW2(nstates, short);
for (i = 0; i < nstates; i++)
{
SRcount = 0;
RRcount = 0;
symbol = -1;
for (p = parser[i]; p; p = p->next)
{
if (p->symbol != symbol)
{
pref = p;
symbol = p->symbol;
}
else if (i == final_state && symbol == 0)
{
SRcount++;
p->suppressed = 1;
}
else if (pref->action_code == SHIFT)
{
if (pref->prec > 0 && p->prec > 0)
{
if (pref->prec < p->prec)
{
pref->suppressed = 2;
pref = p;
}
else if (pref->prec > p->prec)
{
p->suppressed = 2;
}
else if (pref->assoc == LEFT)
{
pref->suppressed = 2;
pref = p;
}
else if (pref->assoc == RIGHT)
{
p->suppressed = 2;
}
else
{
pref->suppressed = 2;
p->suppressed = 2;
}
}
else
{
SRcount++;
p->suppressed = 1;
}
}
else
{
RRcount++;
p->suppressed = 1;
}
}
SRtotal += SRcount;
RRtotal += RRcount;
SRconflicts[i] = SRcount;
RRconflicts[i] = RRcount;
}
}
total_conflicts()
{
fprintf(stderr, "%s: ", myname);
if (SRtotal == 1)
fprintf(stderr, "1 shift/reduce conflict");
else if (SRtotal > 1)
fprintf(stderr, "%d shift/reduce conflicts", SRtotal);
if (SRtotal && RRtotal)
fprintf(stderr, ", ");
if (RRtotal == 1)
fprintf(stderr, "1 reduce/reduce conflict");
else if (RRtotal > 1)
fprintf(stderr, "%d reduce/reduce conflicts", RRtotal);
fprintf(stderr, ".\n");
}
int
sole_reduction(stateno)
int stateno;
{
register int count, ruleno;
register action *p;
count = 0;
ruleno = 0;
for (p = parser[stateno]; p; p = p->next)
{
if (p->action_code == SHIFT && p->suppressed == 0)
return (0);
else if (p->action_code == REDUCE && p->suppressed == 0)
{
if (ruleno > 0 && p->number != ruleno)
return (0);
if (p->symbol != 1)
++count;
ruleno = p->number;
}
}
if (count == 0)
return (0);
return (ruleno);
}
defreds()
{
register int i;
defred = NEW2(nstates, short);
for (i = 0; i < nstates; i++)
defred[i] = sole_reduction(i);
}
free_action_row(p)
register action *p;
{
register action *q;
while (p)
{
q = p->next;
FREE(p);
p = q;
}
}
free_parser()
{
register int i;
for (i = 0; i < nstates; i++)
free_action_row(parser[i]);
FREE(parser);
}

1146
util/byacc/output.c
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99
util/byacc/proto.make
View file

@ -1,99 +0,0 @@
# $Id$
#PARAMS do not remove this line!
SRC_DIR = $(SRC_HOME)/util/byacc
DEST = $(TARGET_HOME)/bin
HDRS = $(SRC_DIR)/defs.h
INCLUDES = -I$(SRC_DIR)
CFLAGS = $(COPTIONS) $(INCLUDES)
LDFLAGS = $(LDOPTIONS)
LINTFLAGS = $(LINTOPTIONS) $(INCLUDES)
OBJS = closure.$(SUF) \
error.$(SUF) \
lalr.$(SUF) \
lr0.$(SUF) \
main.$(SUF) \
mkpar.$(SUF) \
output.$(SUF) \
reader.$(SUF) \
skeleton.$(SUF) \
symtab.$(SUF) \
verbose.$(SUF) \
warshall.$(SUF)
PROGRAM = yacc
SRCS = $(SRC_DIR)/closure.c \
$(SRC_DIR)/error.c \
$(SRC_DIR)/lalr.c \
$(SRC_DIR)/lr0.c \
$(SRC_DIR)/main.c \
$(SRC_DIR)/mkpar.c \
$(SRC_DIR)/output.c \
$(SRC_DIR)/reader.c \
$(SRC_DIR)/skeleton.c \
$(SRC_DIR)/symtab.c \
$(SRC_DIR)/verbose.c \
$(SRC_DIR)/warshall.c
all: $(PROGRAM)
$(PROGRAM): $(OBJS)
$(CC) $(LDFLAGS) -o $(PROGRAM) $(OBJS)
clean:
rm -f $(OBJS) $(PROGRAM)
install: $(PROGRAM)
cp $(PROGRAM) $(DEST)/$(PROGRAM)
if [ $(DO_MACHINE_INDEP) = y ] ; \
then cp $(SRC_DIR)/manpage yacc.1 ; \
mk_manpage yacc.1 $(TARGET_HOME) ; \
rm -f yacc.1 ; \
fi
cmp: $(PROGRAM)
-cmp $(PROGRAM) $(DEST)/$(PROGRAM)
pr:
@pr proto.make $(HDRS) $(SRCS)
opr:
make pr | opr
lint:
$(LINT) $(LINTFLAGS) $(SRCS)
program: $(PROGRAM)
tags: $(HDRS) $(SRCS)
@ctags $(HDRS) $(SRCS)
closure.$(SUF): $(SRC_DIR)/closure.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/closure.c
error.$(SUF): $(SRC_DIR)/error.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/error.c
lalr.$(SUF): $(SRC_DIR)/lalr.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/lalr.c
lr0.$(SUF): $(SRC_DIR)/lr0.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/lr0.c
main.$(SUF): $(SRC_DIR)/main.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/main.c
mkpar.$(SUF): $(SRC_DIR)/mkpar.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/mkpar.c
output.$(SUF): $(SRC_DIR)/output.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/output.c
reader.$(SUF): $(SRC_DIR)/reader.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/reader.c
skeleton.$(SUF): $(SRC_DIR)/skeleton.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/skeleton.c
symtab.$(SUF): $(SRC_DIR)/symtab.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/symtab.c
verbose.$(SUF): $(SRC_DIR)/verbose.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/verbose.c
warshall.$(SUF): $(SRC_DIR)/warshall.c $(SRC_DIR)/defs.h
$(CC) -c $(CFLAGS) $(SRC_DIR)/warshall.c

1770
util/byacc/reader.c
View file

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292
util/byacc/skeleton.c
View file

@ -1,292 +0,0 @@
#include "defs.h"
/* The banner used here should be replaced with an #ident directive */
/* if the target C compiler supports #ident directives. */
/* */
/* If the skeleton is changed, the banner should be changed so that */
/* the altered version can easily be distinguished from the original. */
char *banner[] =
{
"#ifndef lint",
"static char yysccsid[] = \"@(#)yaccpar 1.8 (Berkeley) 01/20/90\";",
"#endif",
"#define YYBYACC 1",
0
};
char *tables[] =
{
"extern short yylhs[];",
"extern short yylen[];",
"extern short yydefred[];",
"extern short yydgoto[];",
"extern short yysindex[];",
"extern short yyrindex[];",
"extern short yygindex[];",
"extern short yytable[];",
"extern short yycheck[];",
"#if YYDEBUG",
"extern char *yyname[];",
"extern char *yyrule[];",
"#endif",
0
};
char *header[] =
{
"#define yyclearin (yychar=(-1))",
"#define yyerrok (yyerrflag=0)",
"#ifdef YYSTACKSIZE",
"#ifndef YYMAXDEPTH",
"#define YYMAXDEPTH YYSTACKSIZE",
"#endif",
"#else",
"#ifdef YYMAXDEPTH",
"#define YYSTACKSIZE YYMAXDEPTH",
"#else",
"#define YYSTACKSIZE 200", /* ACK mod: Changed from 600 to 200 */
"#define YYMAXDEPTH 200", /* ACK mod: Changed from 600 to 200 */
"#endif",
"#endif",
"#if YYDEBUG",
"int yydebug;",
"#endif",
"int yynerrs;",
"int yyerrflag;",
"int yychar;",
"YYSTYPE yyval;",
"YYSTYPE yylval;",
"short yyss[YYSTACKSIZE];",
"YYSTYPE yyvs[YYSTACKSIZE];",
"#define yystacksize YYSTACKSIZE",
0
};
char *body[] =
{
"#define YYABORT goto yyabort",
"#define YYACCEPT goto yyaccept",
"#define YYERROR goto yyerrlab",
"int",
"yyparse()",
"{",
" register int yym, yyn, yystate;",
" register short *yyssp;", /* ACK mod: made this a local */
" register YYSTYPE *yyvsp;", /* ACK mod: made this a local */
"#if YYDEBUG",
" register char *yys;",
" extern char *getenv();",
"",
" if (yys = getenv(\"YYDEBUG\"))",
" {",
" yyn = *yys;",
" if (yyn >= '0' && yyn <= '9')",
" yydebug = yyn - '0';",
" }",
"#endif",
"",
" yynerrs = 0;",
" yyerrflag = 0;",
" yychar = (-1);",
"",
" yyssp = yyss;",
" yyvsp = yyvs;",
" *yyssp = yystate = 0;",
"",
"yyloop:",
" if (yyn = yydefred[yystate]) goto yyreduce;",
" if (yychar < 0)",
" {",
" if ((yychar = yylex()) < 0) yychar = 0;",
"#if YYDEBUG",
" if (yydebug)",
" {",
" yys = 0;",
" if (yychar <= YYMAXTOKEN) yys = yyname[yychar];",
" if (!yys) yys = \"illegal-symbol\";",
" printf(\"yydebug: state %d, reading %d (%s)\\n\", yystate,",
" yychar, yys);",
" }",
"#endif",
" }",
" if ((yyn = yysindex[yystate]) && (yyn += yychar) >= 0 &&",
" yyn <= YYTABLESIZE && yycheck[yyn] == yychar)",
" {",
"#if YYDEBUG",
" if (yydebug)",
" printf(\"yydebug: state %d, shifting to state %d\\n\",",
" yystate, yytable[yyn]);",
"#endif",
" if (yyssp >= yyss + yystacksize - 1)",
" {",
" goto yyoverflow;",
" }",
" *++yyssp = yystate = yytable[yyn];",
" *++yyvsp = yylval;",
" yychar = (-1);",
" if (yyerrflag > 0) --yyerrflag;",
" goto yyloop;",
" }",
" if ((yyn = yyrindex[yystate]) && (yyn += yychar) >= 0 &&",
" yyn <= YYTABLESIZE && yycheck[yyn] == yychar)",
" {",
" yyn = yytable[yyn];",
" goto yyreduce;",
" }",
" if (yyerrflag) goto yyinrecovery;",
"#ifdef lint",
" goto yynewerror;",
"#endif",
"yynewerror:",
" yyerror(\"syntax error\");",
"#ifdef lint",
" goto yyerrlab;",
"#endif",
"yyerrlab:",
" ++yynerrs;",
"yyinrecovery:",
" if (yyerrflag < 3)",
" {",
" yyerrflag = 3;",
" for (;;)",
" {",
" if ((yyn = yysindex[*yyssp]) && (yyn += YYERRCODE) >= 0 &&",
" yyn <= YYTABLESIZE && yycheck[yyn] == YYERRCODE)",
" {",
"#if YYDEBUG",
" if (yydebug)",
" printf(\"yydebug: state %d, error recovery shifting\\",
" to state %d\\n\", *yyssp, yytable[yyn]);",
"#endif",
" if (yyssp >= yyss + yystacksize - 1)",
" {",
" goto yyoverflow;",
" }",
" *++yyssp = yystate = yytable[yyn];",
" *++yyvsp = yylval;",
" goto yyloop;",
" }",
" else",
" {",
"#if YYDEBUG",
" if (yydebug)",
" printf(\"yydebug: error recovery discarding state %d\
\\n\",",
" *yyssp);",
"#endif",
" if (yyssp <= yyss) goto yyabort;",
" --yyssp;",
" --yyvsp;",
" }",
" }",
" }",
" else",
" {",
" if (yychar == 0) goto yyabort;",
"#if YYDEBUG",
" if (yydebug)",
" {",
" yys = 0;",
" if (yychar <= YYMAXTOKEN) yys = yyname[yychar];",
" if (!yys) yys = \"illegal-symbol\";",
" printf(\"yydebug: state %d, error recovery discards token %d\
(%s)\\n\",",
" yystate, yychar, yys);",
" }",
"#endif",
" yychar = (-1);",
" goto yyloop;",
" }",
"yyreduce:",
"#if YYDEBUG",
" if (yydebug)",
" printf(\"yydebug: state %d, reducing by rule %d (%s)\\n\",",
" yystate, yyn, yyrule[yyn]);",
"#endif",
" yym = yylen[yyn];",
" yyval = yyvsp[1-yym];",
" switch (yyn)",
" {",
0
};
char *trailer[] =
{
" }",
" yyssp -= yym;",
" yystate = *yyssp;",
" yyvsp -= yym;",
" yym = yylhs[yyn];",
" if (yystate == 0 && yym == 0)",
" {",
"#if YYDEBUG",
" if (yydebug)",
" printf(\"yydebug: after reduction, shifting from state 0 to\\",
" state %d\\n\", YYFINAL);",
"#endif",
" yystate = YYFINAL;",
" *++yyssp = YYFINAL;",
" *++yyvsp = yyval;",
" if (yychar < 0)",
" {",
" if ((yychar = yylex()) < 0) yychar = 0;",
"#if YYDEBUG",
" if (yydebug)",
" {",
" yys = 0;",
" if (yychar <= YYMAXTOKEN) yys = yyname[yychar];",
" if (!yys) yys = \"illegal-symbol\";",
" printf(\"yydebug: state %d, reading %d (%s)\\n\",",
" YYFINAL, yychar, yys);",
" }",
"#endif",
" }",
" if (yychar == 0) goto yyaccept;",
" goto yyloop;",
" }",
" if ((yyn = yygindex[yym]) && (yyn += yystate) >= 0 &&",
" yyn <= YYTABLESIZE && yycheck[yyn] == yystate)",
" yystate = yytable[yyn];",
" else",
" yystate = yydgoto[yym];",
"#if YYDEBUG",
" if (yydebug)",
" printf(\"yydebug: after reduction, shifting from state %d \\",
"to state %d\\n\", *yyssp, yystate);",
"#endif",
" if (yyssp >= yyss + yystacksize - 1)",
" {",
" goto yyoverflow;",
" }",
" *++yyssp = yystate;",
" *++yyvsp = yyval;",
" goto yyloop;",
"yyoverflow:",
" yyerror(\"yacc stack overflow\");",
"yyabort:",
" return (1);",
"yyaccept:",
" return (0);",
"}",
0
};
write_section(section)
char *section[];
{
register int i;
register FILE *fp;
fp = code_file;
for (i = 0; section[i]; ++i)
{
++outline;
fprintf(fp, "%s\n", section[i]);
}
}

119
util/byacc/symtab.c
View file

@ -1,119 +0,0 @@
#include "defs.h"
/* TABLE_SIZE is the number of entries in the symbol table. */
/* TABLE_SIZE must be a power of two. */
#define TABLE_SIZE 1024
bucket **symbol_table;
bucket *first_symbol;
bucket *last_symbol;
int
hash(name)
char *name;
{
register char *s;
register int c, k;
assert(name && *name);
s = name;
k = *s;
while (c = *++s)
k = (31*k + c) & (TABLE_SIZE - 1);
return (k);
}
bucket *
make_bucket(name)
char *name;
{
register bucket *bp;
assert(name);
bp = (bucket *) MALLOC(sizeof(bucket));
if (bp == 0) no_space();
bp->link = 0;
bp->next = 0;
bp->name = MALLOC(strlen(name) + 1);
if (bp->name == 0) no_space();
bp->tag = 0;
bp->value = UNDEFINED;
bp->index = 0;
bp->prec = 0;
bp-> class = UNKNOWN;
bp->assoc = TOKEN;
if (bp->name == 0) no_space();
strcpy(bp->name, name);
return (bp);
}
bucket *
lookup(name)
char *name;
{
register bucket *bp, **bpp;
bpp = symbol_table + hash(name);
bp = *bpp;
while (bp)
{
if (strcmp(name, bp->name) == 0) return (bp);
bpp = &bp->link;
bp = *bpp;
}
*bpp = bp = make_bucket(name);
last_symbol->next = bp;
last_symbol = bp;
return (bp);
}
create_symbol_table()
{
register int i;
register bucket *bp;
symbol_table = (bucket **) MALLOC(TABLE_SIZE*sizeof(bucket *));
if (symbol_table == 0) no_space();
for (i = 0; i < TABLE_SIZE; i++)
symbol_table[i] = 0;
bp = make_bucket("error");
bp->index = 1;
bp->class = TERM;
first_symbol = bp;
last_symbol = bp;
symbol_table[hash("error")] = bp;
}
free_symbol_table()
{
FREE(symbol_table);
symbol_table = 0;
}
free_symbols()
{
register bucket *p, *q;
for (p = first_symbol; p; p = q)
{
q = p->next;
FREE(p);
}
}

329
util/byacc/verbose.c
View file

@ -1,329 +0,0 @@
#include "defs.h"
static short *null_rules;
verbose()
{
register int i;
if (!vflag) return;
null_rules = (short *) MALLOC(nrules*sizeof(short));
if (null_rules == 0) no_space();
fprintf(verbose_file, "\f\n");
for (i = 0; i < nstates; i++)
print_state(i);
FREE(null_rules);
if (nunused)
log_unused();
if (SRtotal || RRtotal)
log_conflicts();
fprintf(verbose_file, "\n\n%d terminals, %d nonterminals\n", ntokens,
nvars);
fprintf(verbose_file, "%d grammar rules, %d states\n", nrules - 2, nstates);
}
log_unused()
{
register int i;
register short *p;
fprintf(verbose_file, "\n\nRules never reduced:\n");
for (i = 3; i < nrules; ++i)
{
if (!rules_used[i])
{
fprintf(verbose_file, "\t%s :", symbol_name[rlhs[i]]);
for (p = ritem + rrhs[i]; *p >= 0; ++p)
fprintf(verbose_file, " %s", symbol_name[*p]);
fprintf(verbose_file, " (%d)\n", i - 2);
}
}
}
log_conflicts()
{
register int i;
fprintf(verbose_file, "\n\n");
for (i = 0; i < nstates; i++)
{
if (SRconflicts[i] || RRconflicts[i])
{
fprintf(verbose_file, "State %d contains ", i);
if (SRconflicts[i] == 1)
fprintf(verbose_file, "1 shift/reduce conflict");
else if (SRconflicts[i] > 1)
fprintf(verbose_file, "%d shift/reduce conflicts",
SRconflicts[i]);
if (SRconflicts[i] && RRconflicts[i])
fprintf(verbose_file, ", ");
if (RRconflicts[i] == 1)
fprintf(verbose_file, "1 reduce/reduce conflict");
else if (RRconflicts[i] > 1)
fprintf(verbose_file, "%d reduce/reduce conflicts",
RRconflicts[i]);
fprintf(verbose_file, ".\n");
}
}
}
print_state(state)
int state;
{
if (state)
fprintf(verbose_file, "\n\n");
if (SRconflicts[state] || RRconflicts[state])
print_conflicts(state);
fprintf(verbose_file, "state %d\n", state);
print_core(state);
print_nulls(state);
print_actions(state);
}
print_conflicts(state)
int state;
{
register int symbol, act, number;
register action *p;
symbol = -1;
for (p = parser[state]; p; p = p->next)
{
if (p->suppressed == 2)
continue;
if (p->symbol != symbol)
{
symbol = p->symbol;
number = p->number;
if (p->action_code == SHIFT)
act = SHIFT;
else
act = REDUCE;
}
else if (p->suppressed == 1)
{
if (state == final_state && symbol == 0)
{
fprintf(verbose_file, "%d: shift/reduce conflict \
(accept, reduce %d) on $end\n", state, p->number - 2);
}
else
{
if (act == SHIFT)
{
fprintf(verbose_file, "%d: shift/reduce conflict \
(shift %d, reduce %d) on %s\n", state, number, p->number - 2,
symbol_name[symbol]);
}
else
{
fprintf(verbose_file, "%d: reduce/reduce conflict \
(reduce %d, reduce %d) on %s\n", state, number - 2, p->number - 2,
symbol_name[symbol]);
}
}
}
}
}
print_core(state)
int state;
{
register int i;
register int k;
register int rule;
register core *statep;
register short *sp;
register short *sp1;
statep = state_table[state];
k = statep->nitems;
for (i = 0; i < k; i++)
{
sp1 = sp = ritem + statep->items[i];
while (*sp >= 0) ++sp;
rule = -(*sp);
fprintf(verbose_file, "\t%s : ", symbol_name[rlhs[rule]]);
for (sp = ritem + rrhs[rule]; sp < sp1; sp++)
fprintf(verbose_file, "%s ", symbol_name[*sp]);
putc('.', verbose_file);
while (*sp >= 0)
{
fprintf(verbose_file, " %s", symbol_name[*sp]);
sp++;
}
fprintf(verbose_file, " (%d)\n", -2 - *sp);
}
}
print_nulls(state)
int state;
{
register action *p;
register int i, j, k, nnulls;
nnulls = 0;
for (p = parser[state]; p; p = p->next)
{
if (p->action_code == REDUCE &&
(p->suppressed == 0 || p->suppressed == 1))
{
i = p->number;
if (rrhs[i] + 1 == rrhs[i+1])
{
for (j = 0; j < nnulls && i > null_rules[j]; ++j)
continue;
if (j == nnulls)
{
++nnulls;
null_rules[j] = i;
}
else if (i != null_rules[j])
{
++nnulls;
for (k = nnulls - 1; k > j; --k)
null_rules[k] = null_rules[k-1];
null_rules[j] = i;
}
}
}
}
for (i = 0; i < nnulls; ++i)
{
j = null_rules[i];
fprintf(verbose_file, "\t%s : . (%d)\n", symbol_name[rlhs[j]],
j - 2);
}
fprintf(verbose_file, "\n");
}
print_actions(stateno)
int stateno;
{
register action *p;
register shifts *sp;
register int as;
if (stateno == final_state)
fprintf(verbose_file, "\t$end accept\n");
p = parser[stateno];
if (p)
{
print_shifts(p);
print_reductions(p, defred[stateno]);
}
sp = shift_table[stateno];
if (sp && sp->nshifts > 0)
{
as = accessing_symbol[sp->shift[sp->nshifts - 1]];
if (ISVAR(as))
print_gotos(stateno);
}
}
print_shifts(p)
register action *p;
{
register int count;
register action *q;
count = 0;
for (q = p; q; q = q->next)
{
if (q->suppressed < 2 && q->action_code == SHIFT)
++count;
}
if (count > 0)
{
for (; p; p = p->next)
{
if (p->action_code == SHIFT && p->suppressed == 0)
fprintf(verbose_file, "\t%s shift %d\n",
symbol_name[p->symbol], p->number);
}
}
}
print_reductions(p, defred)
register action *p;
register int defred;
{
register int k, anyreds;
register action *q;
anyreds = 0;
for (q = p; q ; q = q->next)
{
if (q->action_code == REDUCE && q->suppressed < 2)
{
anyreds = 1;
break;
}
}
if (anyreds == 0)
fprintf(verbose_file, "\t. error\n");
else
{
for (; p; p = p->next)
{
if (p->action_code == REDUCE && p->number != defred)
{
k = p->number - 2;
if (p->suppressed == 0)
fprintf(verbose_file, "\t%s reduce %d\n",
symbol_name[p->symbol], k);
}
}
if (defred > 0)
fprintf(verbose_file, "\t. reduce %d\n", defred - 2);
}
}
print_gotos(stateno)
int stateno;
{
register int i, k;
register int as;
register short *to_state;
register shifts *sp;
putc('\n', verbose_file);
sp = shift_table[stateno];
to_state = sp->shift;
for (i = 0; i < sp->nshifts; ++i)
{
k = to_state[i];
as = accessing_symbol[k];
if (ISVAR(as))
fprintf(verbose_file, "\t%s goto %d\n", symbol_name[as], k);
}
}

84
util/byacc/warshall.c
View file

@ -1,84 +0,0 @@
#include "defs.h"
transitive_closure(R, n)
unsigned *R;
int n;
{
register int rowsize;
register unsigned mask;
register unsigned *rowj;
register unsigned *rp;
register unsigned *rend;
register unsigned *ccol;
register unsigned *relend;
register unsigned *cword;
register unsigned *rowi;
rowsize = WORDSIZE(n);
relend = R + n*rowsize;
cword = R;
mask = 1;
rowi = R;
while (rowi < relend)
{
ccol = cword;
rowj = R;
while (rowj < relend)
{
if (*ccol & mask)
{
rp = rowi;
rend = rowj + rowsize;
while (rowj < rend)
*rowj++ |= *rp++;
}
else
{
rowj += rowsize;
}
ccol += rowsize;
}
mask <<= 1;
if (mask == 0)
{
mask = 1;
cword++;
}
rowi += rowsize;
}
}
reflexive_transitive_closure(R, n)
unsigned *R;
int n;
{
register int rowsize;
register unsigned mask;
register unsigned *rp;
register unsigned *relend;
transitive_closure(R, n);
rowsize = WORDSIZE(n);
relend = R + n*rowsize;
mask = 1;
rp = R;
while (rp < relend)
{
*rp |= mask;
mask <<= 1;
if (mask == 0)
{
mask = 1;
rp++;
}
rp += rowsize;
}
}