/* Copyright 2009-2024
* Kaz Kylheku <kaz@kylheku.com>
* Vancouver, Canada
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
%{
#include <stdio.h>
#include <string.h>
#include <stdarg.h>
#include <stdlib.h>
#include <limits.h>
#include <wchar.h>
#include <signal.h>
#include "config.h"
#include "lib.h"
#include "gc.h"
#include "stream.h"
#include "utf8.h"
#include "signal.h"
#include "unwind.h"
#include "hash.h"
#include "y.tab.h"
#include "parser.h"
#include "txr.h"
#define YY_INPUT(buf, result, max_size) \
do { \
val self = lit("parser"); \
val n = get_bytes(self, yyextra->stream, \
coerce(mem_t *, buf), max_size); \
result = c_num(n, self); \
} while (0)
#define YY_DECL \
static int yylex_impl(YYSTYPE *yylval_param, yyscan_t yyscanner)
#define YY_FATAL_ERROR(msg) lex_irrecoverable_error(msg)
int opt_loglevel = 1; /* 0 - quiet; 1 - normal; 2 - verbose */
val form_to_ln_hash;
static int directive_tok(scanner_t *yyg, int tok, int state);
#define FLEX_NUM_VERSION 10000*YY_FLEX_MAJOR_VERSION + \
100*YY_FLEX_MINOR_VERSION + \
YY_FLEX_SUBMINOR_VERSION
#if FLEX_NUM_VERSION < 20509
int yylex_destroy(void)
{
return 0;
}
#endif
/* Missing prototypes not generated by flex. */
int yyget_column(yyscan_t);
void yyset_column (int column_no, yyscan_t yyscanner);
/* The following function is all that libflex provides.
By providing it here, we eliminate the need to link libflex. */
#define YY_SKIP_YYWRAP
INLINE int yywrap(yyscan_t scanner)
{
(void) scanner;
return 1;
}
void yyerror(scanner_t *scanner, parser_t *parser, const char *s)
{
yyerrorf(scanner, lit("~a"), string_utf8(s), nao);
if (parser->prepared_msg) {
yyerrorf(scanner, lit("~a"), parser->prepared_msg, nao);
parser->prepared_msg = nil;
}
}
void yyerrorf(scanner_t *scanner, val fmt, ...)
{
parser_t *parser = yyget_extra(scanner);
if (opt_loglevel >= 1) {
va_list vl;
va_start (vl, fmt);
if (opt_compat && opt_compat <= 114)
format(std_error, lit("~a: (~a:~d): "), prog_string,
parser->name, num(parser->lineno), nao);
else
format(std_error, lit("~a:~d: "),
parser->name, num(parser->lineno), nao);
vformat(std_error, fmt, vl);
put_char(chr('\n'), std_error);
va_end (vl);
}
parser->errors++;
}
static void yyerrprepf(scanner_t *scanner, val fmt, ...)
{
parser_t *parser = yyget_extra(scanner);
if (opt_loglevel >= 1) {
va_list vl;
va_start (vl, fmt);
set(mkloc(parser->prepared_msg, parser->parser),
vformat_to_string(fmt, vl));
va_end (vl);
}
}
static void lex_irrecoverable_error(const char *msg8)
{
val msg = string_utf8(msg8);
uw_throwf(error_s, lit("error in parser: ~a"), msg, nao);
}
static void out_of_range_float(scanner_t *scanner, const char *tok)
{
yyerrorf(scanner, lit("out-of-range floating-point literal: ~a"),
string_utf8(tok), nao);
}
static wchar_t char_esc(int letter)
{
switch (letter) {
case ' ': return L' ';
case 'a': return L'\a';
case 'b': return L'\b';
case 't': return L'\t';
case 'n': return L'\n';
case 'v': return L'\v';
case 'f': return L'\f';
case 'r': return L'\r';
case 'e': return 27;
case '"': return L'"';
case '\'': return L'\'';
case '`': return L'`';
case '/': return L'/';
case '@': return L'@';
case '\\': return L'\\';
}
internal_error("unhandled escape character");
}
static wchar_t num_esc(scanner_t *scn, char *num)
{
long val = 0;
if (num[0] == 'x' || num[0] == 'u') {
if (strlen(num) > 7)
yyerror(scn, yyget_extra(scn), "too many digits in hex character escape");
else
val = strtol(num + 1, 0, 16);
} else {
if (num[0] == 'o')
num++;
if (strlen(num) > 8)
yyerror(scn, yyget_extra(scn), "too many digits in octal character escape");
else
val = strtol(num, 0, 8);
}
if (val < 0 || val > 0x10FFFF || convert(wchar_t, val) != val) {
yyerror(scn, yyget_extra(scn), "numeric character escape out of range");
val = 0;
}
return val;
}
static wchar_t *unicode_ident(scanner_t *scn, const char *lex)
{
wchar_t *wlex = utf8_dup_from(lex), *ptr = wlex, wch;
while ((wch = *ptr++)) {
if (wch < 0x1680 || (wch >= 0x3000 && wch < 0xdc00))
continue;
if ((wch >= 0xdc00 && wch <= 0xdcff) ||
(wch >= 0xd800 && wch <= 0xdbff) ||
#if FULL_UNICODE
(wch >= 0xf0000 && wch <= 0xffffd) ||
(wch >= 0x100000 && wch <= 0x10fffd) ||
#endif
(wch >= 0xe000 && wch <= 0xf8ff) ||
(wch == 0xfffe) ||
(wch == 0xffff))
{
yyerror(scn, yyget_extra(scn),
"disallowed Unicode character in identifier");
break;
}
switch (wch) {
case 0x1680: case 0x180e: case 0x2000: case 0x2001: case 0x2002:
case 0x2003: case 0x2004: case 0x2005: case 0x2006: case 0x2007:
case 0x2008: case 0x2009: case 0x200a: case 0x2028: case 0x2029:
case 0x205f: case 0x3000:
yyerror(scn, yyget_extra(scn),
"Unicode space occurs in identifier");
break;
default:
continue;
}
break;
}
return wlex;
}
static char *remove_char(char *str, int c)
{
char *dst = str, *src = str;
while (*src) {
int ch = *src++;
if (ch != c)
*dst++ = ch;
}
*dst = 0;
return str;
}
%}
%option stack noinput reentrant bison-bridge extra-type="parser_t *"
%option never-interactive
TOK [a-zA-Z0-9_]+
SGN [+\-]
EXP [eE][+\-]?[0-9]+
DIG [0-9]
DIG19 [1-9]
DIGSEP {DIG}({DIG}|,)*{DIG}|{DIG}
XDIG [0-9A-Fa-f]
XDIGSEP {XDIG}({XDIG}|,)*{XDIG}|{XDIG}
NUM {SGN}?{DIG}+
NUMSEP {SGN}?{DIGSEP}
FLO {SGN}?({DIG}*[.]{DIG}+{EXP}?|{DIG}+[.]?{EXP})
FLOSEP {SGN}?({DIGSEP}*[.]{DIGSEP}+{EXP}?|{DIGSEP}+[.]?{EXP})
FLODOT {SGN}?{DIGSEP}+[.]
DOTFLO [.]{DIG}+
XNUM #x{SGN}?{XDIG}+
XNUMSEP #x{SGN}?{XDIGSEP}
ODIG [0-7]
ODIGSEP {ODIG}({ODIG}|,)*{ODIG}|{ODIG}
BDIG [01]
BDIGSEP {BDIG}({BDIG}|,)*{BDIG}|{BDIG}
ONUM #o{SGN}?{ODIG}+
ONUMSEP #o{SGN}?{ODIGSEP}
BNUM #b{SGN}?{BDIG}+
BNUMSEP #b{SGN}?{BDIGSEP}
BSCHR ([a-zA-Z0-9!$%&*+\-<=>?\\_~]|{UONLY})
NSCHR ([a-zA-Z0-9!$%&*+\-<=>?\\_~/]|{UONLY})
ID_END [^a-zA-Z0-9!$%&*+\-<=>?\\_~/]
EXTRA [#^]
BT0 {BSCHR}({BSCHR}|{EXTRA})*
BT1 @{BT0}+
BT2 ({BSCHR}|{EXTRA})+
BTREG ({BT0}|{BT1})?:{BT2}?|({BT0}|{BT1})(:{BT2})?
BTKWUN @?#?:{BT2}?
BTOK {BTREG}|{BTKWUN}
NT0 {NSCHR}({NSCHR}|{EXTRA})*
NT1 @{NT0}+
NT2 ({NSCHR}|{EXTRA})+
NTREG ({NT0}|{NT1})?:{NT2}?|({NT0}|{NT1})(:{NT2})?
NTKWUN @?#?:{NT2}?
NTOK {NTREG}|{NTKWUN}
WS [\t ]*
REQWS [\t ]+
NL (\n|\r|\r\n)
HEX [0-9A-Fa-f]
OCT [0-7]
REGOP [/()|.*?+~&%\[\]\-]
ASC [\x00-\x7f]
ASCN [\x00-\t\v-\x7f]
U [\x80-\xbf]
U2 [\xc2-\xdf]
U3 [\xe0-\xef]
U4 [\xf0-\xf4]
UANY {ASC}|{U2}{U}|{U3}{U}{U}|{U4}{U}{U}{U}
UANYN {ASCN}|{U2}{U}|{U3}{U}{U}|{U4}{U}{U}{U}
UONLY {U2}{U}|{U3}{U}{U}|{U4}{U}{U}{U}
JNUM -?(0|{DIG19}{DIG}*)([.]{DIG}+)?{EXP}?
JPUNC [(){},:\[\]"~*^]
NJPUNC [^(){},:\[\]"~*^ \t\r\n]
%x SPECIAL BRACED NESTED REGEX SREGEX STRLIT CHRLIT
%x QSILIT QSPECIAL WLIT QWLIT BUFLIT
%x JSON JLIT JMARKER
%%
<SPECIAL,QSPECIAL,NESTED,BRACED>{NUM} {
val str = string_own(utf8_dup_from(yytext));
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num(10));
return NUMBER;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{NUMSEP} {
val str = string_own(utf8_dup_from(remove_char(yytext, ',')));
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num(10));
return NUMBER;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{XNUMSEP}|{ONUMSEP}|{BNUMSEP} {
val str = string_own(utf8_dup_from(remove_char(yytext + 2, ',')));
int base;
switch (yytext[1]) {
case 'x': base = 16; break;
case 'o': base = 8; break;
case 'b': default: base = 2; break;
}
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num_fast(base));
return NUMBER;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>({BNUMSEP}|{ONUMSEP}|{XNUMSEP}){TOK} {
int base = 0;
val str = string_own(utf8_dup_from(yytext + 2));
switch (yytext[1]) {
case 'x': base = 16; break;
case 'o': base = 8; break;
case 'b': default: base = 2; break;
}
yyerrorf(yyg, lit("trailing junk in numeric literal: ~a~a~a"),
chr(yytext[0]), chr(yytext[1]), str, nao);
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num_fast(base));
return NUMBER;
}
<SPECIAL,NESTED,BRACED>{WS}{FLO} {
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
if ((yylval->val = flo_str_utf8(yytext)) == nil)
out_of_range_float(yyg, yytext);
return NUMBER;
}
<SPECIAL,NESTED,BRACED>{WS}{FLOSEP} {
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
remove_char(yytext, ',');
if ((yylval->val = flo_str_utf8(yytext)) == nil)
out_of_range_float(yyg, yytext);
return NUMBER;
}
<SPECIAL>{WS}({FLOSEP}[.]?|{FLODOT}){TOK} |
<BRACED>{WS}({FLOSEP}[.]?|{FLODOT}){BTOK} |
<NESTED>{WS}({FLOSEP}[.]?|{FLODOT}){NTOK} {
val str = string_utf8(yytext);
yyerrorf(yyg, lit("trailing junk in floating-point literal: ~a"), str, nao);
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
if ((yylval->val = flo_str_utf8(yytext)) == nil)
out_of_range_float(yyg, yytext);
return NUMBER;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{FLODOT}/[^.] {
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
if ((yylval->val = flo_str_utf8(yytext)) == nil)
out_of_range_float(yyg, yytext);
return NUMBER;
}
<NESTED,BRACED,QSILIT,QWLIT>@{NUM} |
<QSPECIAL>{NUM} {
val str = string_own(utf8_dup_from(yytext + 1));
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num(10));
return METANUM;
}
<NESTED,QSILIT,QWLIT>@{XNUM} |
<QSPECIAL>{XNUM} {
val str = string_own(utf8_dup_from(yytext + 3));
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num(16));
return METANUM;
}
<NESTED,QSILIT,QWLIT>@{ONUM} |
<QSPECIAL>{ONUM} {
val str = string_own(utf8_dup_from(yytext + 3));
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num(8));
return METANUM;
}
<NESTED,QSILIT,QWLIT,QSPECIAL>@{BNUM} {
val str = string_own(utf8_dup_from(yytext + 3));
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->val = int_str(str, num(2));
return METANUM;
}
<SPECIAL,QSPECIAL>{TOK}/{DOTFLO} |
<BRACED>{BTOK}/{DOTFLO} |
<NESTED>{NTOK}/{DOTFLO} {
yyerrorf(yyg, lit("cramped floating-point literal: "
"space needed between ~a and dot."),
string_own(utf8_dup_from(yytext)),
nao);
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->lexeme = unicode_ident(yyg, yytext);
return SYMTOK;
}
<SPECIAL,QSPECIAL>{TOK} |
<BRACED>{BTOK} |
<NESTED>{NTOK} {
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yylval->lexeme = unicode_ident(yyg, yytext);
return SYMTOK;
}
<BRACED>{BTOK}{BTOK} |
<NESTED>{NTOK}{NTOK} {
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
yyerrorf(yyg, lit("bad token: ~a"),
string_own(utf8_dup_from(yytext)),
nao);
yylval->lexeme = unicode_ident(yyg, yytext);
return SYMTOK;
}
<SPECIAL>\({WS}({NT0}?:)?all{WS}\) {
return directive_tok(yyg, ALL, 0);
}
<SPECIAL>\({WS}({NT0}?:)?some/{ID_END} {
return directive_tok(yyg, SOME, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?none{WS}\) {
return directive_tok(yyg, NONE, 0);
}
<SPECIAL>\({WS}({NT0}?:)?maybe{WS}\) {
return directive_tok(yyg, MAYBE, 0);
}
<SPECIAL>\({WS}({NT0}?:)?cases{WS}\) {
return directive_tok(yyg, CASES, 0);
}
<SPECIAL>\({WS}({NT0}?:)?block/{ID_END} {
return directive_tok(yyg, BLOCK, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?choose/{ID_END} {
return directive_tok(yyg, CHOOSE, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?gather/{ID_END} {
return directive_tok(yyg, GATHER, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?and{WS}\) {
return directive_tok(yyg, AND, 0);
}
<SPECIAL>\({WS}({NT0}?:)?or{WS}\) {
return directive_tok(yyg, OR, 0);
}
<SPECIAL>\({WS}({NT0}?:)?end{WS}\) {
return directive_tok(yyg, END, 0);
}
<SPECIAL>\({WS}({NT0}?:)?collect/{ID_END} {
return directive_tok(yyg, COLLECT, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?coll/{ID_END} {
return directive_tok(yyg, COLL, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?until/{ID_END} {
return directive_tok(yyg, UNTIL, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?output/{ID_END} {
return directive_tok(yyg, OUTPUT, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?repeat/{ID_END} {
return directive_tok(yyg, REPEAT, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?push/{ID_END} {
return directive_tok(yyg, PUSH, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?rep/{ID_END} {
return directive_tok(yyg, REP, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?single{WS}\) {
return directive_tok(yyg, SINGLE, 0);
}
<SPECIAL>\({WS}({NT0}?:)?first{WS}\) {
return directive_tok(yyg, FIRST, 0);
}
<SPECIAL>\({WS}({NT0}?:)?last/{ID_END} {
return directive_tok(yyg, LAST, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?empty{WS}\) {
return directive_tok(yyg, EMPTY, 0);
}
<SPECIAL>\({WS}({NT0}?:)?mod/{ID_END} {
return directive_tok(yyg, MOD, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?modlast/{ID_END} {
return directive_tok(yyg, MODLAST, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?define/{ID_END} {
return directive_tok(yyg, DEFINE, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?try{WS}\) {
return directive_tok(yyg, TRY, 0);
}
<SPECIAL>\({WS}({NT0}?:)?catch/{ID_END} {
return directive_tok(yyg, CATCH, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?finally{WS}\) {
return directive_tok(yyg, FINALLY, 0);
}
<SPECIAL>\({WS}({NT0}?:)?if/{ID_END} {
return directive_tok(yyg, IF, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?elif/{ID_END} {
return directive_tok(yyg, ELIF, NESTED);
}
<SPECIAL>\({WS}({NT0}?:)?else{WS}\) {
return directive_tok(yyg, ELSE, 0);
}
<SPECIAL,QSPECIAL>[{] {
yy_push_state(BRACED, yyscanner);
yylval->lineno = yyextra->lineno;
return yytext[0];
}
<SPECIAL,QSPECIAL,NESTED,BRACED>[(\[] {
yy_push_state(NESTED, yyscanner);
yylval->lineno = yyextra->lineno;
return yytext[0];
}
<NESTED,BRACED,QSPECIAL>@ {
yylval->lineno = yyextra->lineno;
return (opt_compat && opt_compat <= 248) ? OLD_AT : '@';
}
<NESTED,QSPECIAL,BRACED>,[*] {
yylval->chr = '*';
return SPLICE;
}
<QSPECIAL,NESTED,BRACED>[,'^] {
yylval->chr = yytext[0];
return yytext[0];
}
<BRACED>[}] {
yy_pop_state(yyscanner);
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
return yytext[0];
}
<SPECIAL,QSPECIAL,NESTED>[)\]]/{DOTFLO} {
yyerrorf(yyg, lit("cramped floating-point literal: "
"space or 0 needed between ~a and dot."),
string_own(utf8_dup_from(yytext)),
nao);
yy_pop_state(yyscanner);
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
return yytext[0];
}
<SPECIAL,QSPECIAL,NESTED>[)\]}] {
yy_pop_state(yyscanner);
if (yy_top_state(yyscanner) == INITIAL
|| yy_top_state(yyscanner) == QSILIT
|| yy_top_state(yyscanner) == QWLIT)
yy_pop_state(yyscanner);
return yytext[0];
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{WS} {
/* Eat whitespace in directive */
}
<SPECIAL,QSPECIAL,NESTED,BRACED>\" {
yy_push_state(STRLIT, yyscanner);
return '"';
}
<SPECIAL,QSPECIAL,NESTED,BRACED>#\\ {
yy_push_state(CHRLIT, yyscanner);
yylval->lineno = yyextra->lineno;
return HASH_BACKSLASH;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>#b' {
yy_push_state(BUFLIT, yyscanner);
yylval->lineno = yyextra->lineno;
return HASH_B_QUOTE;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>#[/] {
yy_push_state(REGEX, yyscanner);
yylval->lineno = yyextra->lineno;
return HASH_SLASH;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>` {
yy_push_state(QSILIT, yyscanner);
return '`';
}
<SPECIAL,QSPECIAL,NESTED,BRACED>#\" {
yy_push_state(WLIT, yyscanner);
yylval->lineno = yyextra->lineno;
return WORDS;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>#\*\" {
yy_push_state(WLIT, yyscanner);
yylval->lineno = yyextra->lineno;
return WSPLICE;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>#\` {
yy_push_state(QWLIT, yyscanner);
yylval->lineno = yyextra->lineno;
return QWORDS;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>#\*\` {
yy_push_state(QWLIT, yyscanner);
yylval->lineno = yyextra->lineno;
return QWSPLICE;
}
<NESTED,BRACED># {
return '#';
}
<NESTED,BRACED>#H {
yylval->lineno = yyextra->lineno;
return HASH_H;
}
<NESTED,BRACED>#S {
yylval->lineno = yyextra->lineno;
return HASH_S;
}
<NESTED,BRACED>#R {
yylval->lineno = yyextra->lineno;
return HASH_R;
}
<NESTED,BRACED>#N {
yylval->lineno = yyextra->lineno;
return HASH_N;
}
<NESTED,BRACED>#T {
yylval->lineno = yyextra->lineno;
return HASH_T;
}
<NESTED,BRACED>#J {
yylval->lineno = yyextra->lineno;
yy_push_state(JSON, yyscanner);
return HASH_J;
}
<NESTED,BRACED>#; {
yylval->lineno = yyextra->lineno;
return HASH_SEMI;
}
<NESTED,BRACED,JSON>#{DIG}+= {
val str = string_own(utf8_dup_from(yytext + 1));
yylval->val = int_str(str, num(10));
return HASH_N_EQUALS;
}
<NESTED,BRACED,JSON>#{DIG}+# {
val str = string_own(utf8_dup_from(yytext + 1));
yylval->val = int_str(str, num(10));
return HASH_N_HASH;
}
<NESTED>{WS}\.\. {
yylval->lineno = yyextra->lineno;
return (opt_compat && opt_compat <= 185) ? OLD_DOTDOT : DOTDOT;
}
<SPECIAL>@ {
yy_pop_state(yyscanner);
yylval->lexeme = chk_strdup(L"@");
return TEXT;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{NL} {
yyextra->lineno++;
}
<SPECIAL,BRACED>[/] {
yy_push_state(REGEX, yyscanner);
return '/';
}
<SPECIAL,QSPECIAL,NESTED>{REQWS}\.{REQWS} {
yylval->chr = '.';
return CONSDOT;
}
<SPECIAL,QSPECIAL,NESTED>\.{REQWS} {
yylval->chr = '.';
return LAMBDOT;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{REQWS}\. {
yylval->chr = '.';
return UREFDOT;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>\. {
yylval->chr = '.';
return '.';
}
<SPECIAL,QSPECIAL,NESTED>\.\? {
yylval->chr = '.';
return OREFDOT;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{REQWS}\.\? {
yylval->chr = '.';
return UOREFDOT;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>[\\]{NL}{WS} {
if (YYSTATE == SPECIAL)
yy_pop_state(yyscanner); /* @\ continuation */
yyextra->lineno++;
}
<SPECIAL>[\\][abtnvfre ] {
wchar_t lexeme[2];
lexeme[0] = char_esc(yytext[1]);
lexeme[1] = 0;
yylval->lexeme = chk_strdup(lexeme);
yy_pop_state(yyscanner);
return TEXT;
}
<SPECIAL>[\\](x{HEX}+|{OCT}+);? {
wchar_t lexeme[2];
lexeme[0] = num_esc(yyg, yytext + 1);
lexeme[1] = 0;
yylval->lexeme = chk_strdup(lexeme);
{
char lastchar = yytext[yyleng-1];
if (lastchar == ';' && opt_compat && opt_compat <= 109)
unput(lastchar);
}
yy_pop_state(yyscanner);
return TEXT;
}
<SPECIAL>[\\]x {
yyerrorf(yyg, lit("\\x escape without digits"), nao);
}
<SPECIAL>[\\]. {
yyerrorf(yyg, lit("unrecognized escape \\~a"), chr(yytext[1]), nao);
}
<SPECIAL,QSPECIAL,NESTED,BRACED,JSON>[;][^\n\r]* {
/* comment */
}
<SPECIAL,QSPECIAL,NESTED,BRACED>{UANYN} {
val ch = chr_str(string_utf8(yytext), zero);
if (chr_isspace(ch))
yyerrprepf(yyg, lit("unexpected whitespace character #\\x~,02x"),
ch, nao);
else if (chr_isunisp(ch))
yyerrprepf(yyg, lit("unexpected Unicode space character #\\x~,02x"),
ch, nao);
else if (chr_iscntrl(ch))
yyerrprepf(yyg, lit("unexpected control character #\\x~,02x"),
ch, nao);
else
yyerrprepf(yyg, lit("unexpected character #\\~a"),
ch, nao);
return ERRTOK;
}
<SPECIAL,QSPECIAL,NESTED,BRACED>. {
yyerrprepf(yyg, lit("non-UTF-8 byte #x~02x in directive"),
num(convert(unsigned char, yytext[0])), nao);
return ERRTOK;
}
<REGEX,SREGEX>[/] {
yylval->chr = '/';
return (YYSTATE == SREGEX) ? REGCHAR : '/';
}
<REGEX,SREGEX>[\\][abtnvfre\\ ] {
yylval->chr = char_esc(yytext[1]);
return REGCHAR;
}
<REGEX,SREGEX>[\\](x{HEX}+|{OCT}+);? {
yylval->chr = num_esc(yyg, yytext + 1);
return REGCHAR;
}
<REGEX,SREGEX>[\\][sSdDwW] {
yylval->chr = yytext[1];
return REGTOKEN;
}
<REGEX,SREGEX>{WS}[\\]{NL}{WS} {
yyextra->lineno++;
}
<REGEX>{NL} {
yyextra->lineno++;
yyerrprepf(yyg, lit("newline in regex"), nao);
return ERRTOK;
}
<SREGEX>{NL} {
yyextra->lineno++;
yylval->chr = yytext[0];
return REGCHAR;
}
<REGEX,SREGEX>{REGOP} {
yylval->chr = yytext[0];
return yytext[0];
}
<REGEX,SREGEX>[\\]{REGOP} {
yylval->chr = yytext[1];
return REGCHAR;
}
<REGEX,SREGEX>[\\]. {
if (opt_compat && opt_compat <= 105) {
yylval->chr = yytext[1];
return REGCHAR;
}
if (yytext[1] == 'x')
yyerrprepf(yyg, lit("\\x escape without digits in regex"), nao);
else
yyerrprepf(yyg, lit("unrecognized escape in regex"), nao);
return ERRTOK;
}
<REGEX,SREGEX>[\\] {
yyerrprepf(yyg, lit("dangling backslash in regex"), nao);
return ERRTOK;
}
<REGEX,SREGEX>{UANYN} {
wchar_t wchr[8];
if (utf8_from_buf(wchr, coerce(unsigned char *, yytext), yyleng) != 2) {
yylval->lexeme = chk_strdup(wchr);
return TEXT;
}
yylval->chr = wchr[0];
return REGCHAR;
}
<SREGEX,REGEX>. {
yylval->chr = convert(unsigned char, yytext[0]) + 0xDC00;
return REGCHAR;
}
<INITIAL>[ ]+ {
yylval->lexeme = utf8_dup_from(yytext);
return SPACE;
}
<INITIAL>({UONLY}|[^@\n\r ])+ {
yylval->lexeme = utf8_dup_from(yytext);
return TEXT;
}
<INITIAL>{NL} {
yyextra->lineno++;
return '\n';
}
<INITIAL>@{WS}\* {
yy_push_state(SPECIAL, yyscanner);
return '*';
}
<INITIAL>@ {
yy_push_state(SPECIAL, yyscanner);
}
<INITIAL>^@{WS}*[#;].*{NL} {
/* eat whole line comment */
yyextra->lineno++;
}
<INITIAL>@{WS}*[#;].* {
/* comment to end of line */
}
<STRLIT,WLIT>\" {
yy_pop_state(yyscanner);
return yytext[0];
}
<QSILIT,QWLIT>\` {
yy_pop_state(yyscanner);
return yytext[0];
}
<STRLIT,QSILIT,WLIT,QWLIT>[\\][abtnvfre "`'\\ ] {
yylval->chr = char_esc(yytext[1]);
return LITCHAR;
}
<QSILIT,QWLIT>[\\]@ {
yylval->chr = char_esc(yytext[1]);
return LITCHAR;
}
<STRLIT,QSILIT>{WS}[\\]{NL}{WS} {
yyextra->lineno++;
}
<STRLIT,QSILIT,WLIT,QWLIT>{WS}[\\]{NL}{WS} {
yyextra->lineno++;
if (!opt_compat || opt_compat > 109)
return ' ';
}
<STRLIT,QSILIT,WLIT,QWLIT>[\\](x{HEX}+|{OCT}+);? {
yylval->chr = num_esc(yyg, yytext+1);
return LITCHAR;
}
<STRLIT,QSILIT,WLIT,QWLIT>[\\]x {
yyerrorf(yyg, lit("\\x escape without digits"), nao);
}
<STRLIT,QSILIT,WLIT,QWLIT>[\\]. {
yyerrorf(yyg, lit("unrecognized escape: \\~a"), chr(yytext[1]), nao);
}
<CHRLIT>(x{HEX}+|o{OCT}+) {
yylval->chr = num_esc(yyg, yytext);
return LITCHAR;
}
<CHRLIT>{TOK} {
yylval->lexeme = utf8_dup_from(yytext);
return SYMTOK;
}
<CHRLIT>[^ \t\n\r] {
yylval->lexeme = utf8_dup_from(yytext);
return SYMTOK; /* hack */
}
<STRLIT>{NL} {
yyerrprepf(yyg, lit("newline in string literal"), nao);
yyextra->lineno++;
yylval->chr = yytext[0];
return ERRTOK;
}
<CHRLIT>{NL} {
yyerrprepf(yyg, lit("newline in character literal"), nao);
yyextra->lineno++;
yylval->chr = yytext[0];
return ERRTOK;
}
<QSILIT>{NL} {
yyerrprepf(yyg, lit("newline in string quasiliteral"), nao);
yyextra->lineno++;
yylval->chr = yytext[0];
return ERRTOK;
}
<WLIT,QWLIT>{NL} {
yyextra->lineno++;
if (opt_compat && opt_compat <= 109)
return ' ';
yyerrprepf(yyg, lit("newline in word list literal"), nao);
yylval->chr = yytext[0];
return ERRTOK;
}
<QSILIT,QWLIT>@/([[({'^,@]|{TOK}) {
yy_push_state(QSPECIAL, yyscanner);
return yytext[0];
}
<QSILIT,QWLIT>@ {
yyerrprepf(yyg, lit("malformed @ expression in quasiliteral"), nao);
return ERRTOK;
}
<WLIT,QWLIT>{WS} {
return ' ';
}
<JLIT>\" {
yy_pop_state(yyscanner);
return yytext[0];
}
<JLIT>[\\][bfnrt"\\/] {
yylval->chr = char_esc(yytext[1]);
return LITCHAR;
}
<JLIT>[\\]u[Dd][8-9A-Fa-f]{HEX}{2}[\\]u[Dd][C-Fc-f]{HEX}{2} {
wchar_t ch0, ch1;
yytext[6] = 0;
ch0 = num_esc(yyg, yytext + 1);
ch1 = num_esc(yyg, yytext + 7);
yylval->chr = ((ch0 - 0xD800) << 10 | (ch1 - 0xDC00)) + 0x10000;
return LITCHAR;
}
<JLIT>[\\]u{HEX}{4} {
wchar_t ch = num_esc(yyg, yytext + 1);
yylval->chr = if3(ch, ch, 0xDC00);
return LITCHAR;
}
<JLIT>[\\]u {
yyerrorf(yyg, lit("JSON \\u escape needs four digits"), nao);
}
<JLIT>[\\]. {
yyerrorf(yyg, lit("unrecognized JSON escape: \\~a"), chr(yytext[1]), nao);
}
<JLIT>{NL} {
yyerrprepf(yyg, lit("newline in JSON string"), nao);
yyextra->lineno++;
yylval->chr = yytext[0];
return ERRTOK;
}
<STRLIT,CHRLIT,QSILIT,WLIT,QWLIT,JLIT>{UANYN} {
wchar_t wchr[8];
if (utf8_from_buf(wchr, coerce(unsigned char *, yytext), yyleng) != 2) {
yylval->lexeme = chk_strdup(wchr);
return TEXT;
}
yylval->chr = wchr[0];
return LITCHAR;
}
<BUFLIT>{HEX} {
yylval->chr = strtol(yytext, 0, 16);
return LITCHAR;
}
<BUFLIT>' {
return '\'';
}
<BUFLIT>{WS} {
}
<BUFLIT>{NL} {
yyextra->lineno++;
}
<BUFLIT>. {
yyerrorf(yyg, lit("bad character ~s in buffer literal"),
chr(yytext[0]), nao);
}
<STRLIT,CHRLIT,QSILIT,WLIT,QWLIT,JLIT>. {
yylval->chr = convert(unsigned char, yytext[0]) + 0xDC00;
return LITCHAR;
}
<JSON>{JNUM} {
if ((yylval->val = flo_str_utf8(yytext)) == nil)
out_of_range_float(yyg, yytext);
return NUMBER;
}
<JSON>true/({JPUNC}|[ \t\n]) {
yylval->val = t;
return JSKW;
}
<JSON>false/({JPUNC}|[ \t\n]) {
yylval->val = nil;
return JSKW;
}
<JSON>null/({JPUNC}|[ \t\n]) {
yylval->val = null_s;
return JSKW;
}
<JSON>{NJPUNC}+ {
if (strcmp("true", yytext) == 0) {
yylval->val = t;
return JSKW;
}
if (strcmp("false", yytext) == 0) {
yylval->val = nil;
return JSKW;
}
if (strcmp("null", yytext) == 0) {
yylval->val = null_s;
return JSKW;
}
{
val str = string_own(utf8_dup_from(yytext));
yyerrorf(yyg, lit("unrecognized JSON syntax: ~a"), str, nao);
}
}
<JSON>\" {
yy_push_state(JLIT, yyscanner);
return yytext[0];
}
<JSON>~[*] {
yy_push_state(JMARKER, yyscanner);
yy_push_state(NESTED, yyscanner);
return JSPLICE;
}
<JSON>~ {
yy_push_state(JMARKER, yyscanner);
yy_push_state(NESTED, yyscanner);
return yytext[0];
}
<JSON>{JPUNC} {
return yytext[0];
}
<JSON>{NL} {
yyextra->lineno++;
}
<JSON>{WS} {
}
<JSON>. {
yyerrorf(yyg, lit("bad character ~s in JSON literal"),
chr(yytext[0]), nao);
}
<JMARKER>. {
internal_error("scanner processed input JMARKER state");
}
%%
static int directive_tok(scanner_t *yyscanner, int tok, int state)
{
struct yyguts_t *yyg = convert(struct yyguts_t *, yyscanner);
char *pstart = yytext + 1 + strspn(yytext + 1, " \t");
char *pcolon = strchr(pstart, ':');
char *pend = pstart + strspn(pstart, ":-abcdefghijklmnopqrstuvwxyz");
*pend = 0;
if (pcolon != 0) {
val pkgname = string_utf8((*pcolon = 0, pstart));
val package = if3(pstart[0], find_package(pkgname), keyword_package);
if (!package) {
yyerrprepf(yyg, lit("package ~a not found"), pkgname, nao);
tok = ERRTOK;
}
if (package != user_package && package != keyword_package) {
val sym = string_utf8(pcolon + 1);
yyerrprepf(yyg, lit("~a:~a: original usr package expected, not ~a"),
pkgname, sym, pkgname, nao);
tok = ERRTOK;
}
} else {
val symname = string_utf8(pstart);
val sym = intern_fallback(symname, cur_package);
val package = symbol_package(sym);
if (package != user_package && package != keyword_package) {
yyerrprepf(yyg, lit("~a: this is ~a:~a, not usr:~a"),
symname, package_name(package), symname, symname, nao);
tok = ERRTOK;
}
}
if (state != 0)
yy_push_state(state, yyscanner);
else
yy_pop_state(yyscanner);
yylval->lineno = yyextra->lineno;
return tok;
}
void end_of_regex(scanner_t *yyg)
{
if (YYSTATE != REGEX && YYSTATE != SREGEX)
internal_error("end_of_regex called in wrong scanner state");
yy_pop_state(yyg);
if (YYSTATE != INITIAL) {
if (yy_top_state(yyg) == INITIAL
|| yy_top_state(yyg) == QSILIT
|| yy_top_state(yyg) == QWLIT)
yy_pop_state(yyg);
}
}
void end_of_char(scanner_t *yyg)
{
if (YYSTATE != CHRLIT)
internal_error("end_of_char called in wrong scanner state");
yy_pop_state(yyg);
}
void end_of_buflit(scanner_t *yyg)
{
if (YYSTATE != BUFLIT)
internal_error("end_of_buflit called in wrong scanner state");
yy_pop_state(yyg);
}
void end_of_json(scanner_t *yyg)
{
if (YYSTATE == JLIT)
yy_pop_state(yyg);
if (YYSTATE != JSON)
internal_error("end_of_json called in wrong scanner state");
yy_pop_state(yyg);
}
/* The complexity here is necessary because TXR Lisp parsing looks ahead
* by one token. (The reason for *that* is the support of a.b.c referencing dot
* syntax in TXR Lisp.)
*
* Consider these two different cases:
*
* ^#J[,~(+ 2.0 2.0)]
* ^#J[,~(+ 2.0 2.0) #J42]
*
* This end_of_json_unquote function gets called when the (+ 2.0 2.0)
* has been parsed, but the Yacc-generated parser has shifted one tokan
* ahead. It has read the ] token in the one case or the #J token in
* the other. These tokens have totally different effects on the Lex
* start condition. When the lexer reads the ] token, it pops off a NESTED
* state, whereas the #J token wants to push on a new JSON state.
* By the time end_of_json_unquote has been called, this has already happened.
*
* To deal with this, we use the dummy JMARKER start state which serves as a
* kind of parenthesis inside the start condition stack. BHefore scanning Lisp
* unquote within JSON, we push JMARKER state first, then the NESTED state.
*
* If the lookahead token is like ], and pops off a state, it will pop off
* our NESTED state, so we are left at the JMARKER state. If the lookahead
* token is something else like #J (HASH_J), then it will push a new
* state like JSON on top, and we have JMARKER NESTED JSON.
*
* So what we are doing here is popping off everything until we get down
* to the JMARKER state, and putting it into our little save area.
*
* Then we lose the JMARKER state.
*
* If the save area is empty, it means that the lookahead token consumed
* our NESTED state, and so we are done.
*
* If the save area is not empty, it means the lookahead put something
* extra over our NESTED state. We drop that state from our save area,
* and restore the rest of the save area back into the stack.
* Effectively, we are deleting the unquote-related states from the
* interior of the start condition stack, not to disturb new material
* initiated by the lookahead token.
*/
void end_of_json_unquote(scanner_t *yyg)
{
int stacksave[8];
int top = 0;
while (YYSTATE != JMARKER) {
stacksave[top++] = YYSTATE;
yy_pop_state(yyg);
}
yy_pop_state(yyg);
if (top-- > 0) {
while (top > 0)
yy_push_state(stacksave[--top], yyg);
}
}
val source_loc(val form)
{
return gethash(form_to_ln_hash, form);
}
val source_loc_str(val form, val alt)
{
cons_bind (line, file, gethash(form_to_ln_hash, form));
if (missingp(alt))
alt = lit("source location n/a");
return if3(line, format(nil, lit("~a:~d"), file, line, nao), alt);
}
int yylex(YYSTYPE *yylval_param, yyscan_t yyscanner)
{
struct yyguts_t * yyg = convert(struct yyguts_t *, yyscanner);
int yy_char;
if (yyextra->tok_idx > 0) {
struct yy_token *tok = &yyextra->tok_pushback[--yyextra->tok_idx];
yyextra->recent_tok = *tok;
*yylval_param = tok->yy_lval;
if (tok->yy_lex_state && tok->yy_lex_state != YYSTATE)
yy_push_state(tok->yy_lex_state, yyg);
return tok->yy_char;
}
yy_char = yyextra->recent_tok.yy_char = yylex_impl(yylval_param, yyscanner);
yyextra->recent_tok.yy_lval = *yylval_param;
yyextra->recent_tok.yy_lex_state = YYSTATE;
return yy_char;
}
void prime_scanner(scanner_t *yyg, enum prime_parser prim)
{
while (YYSTATE != INITIAL)
yy_pop_state(yyg);
switch (prim) {
case prime_lisp:
case prime_interactive:
yy_push_state(SPECIAL, yyg);
yy_push_state(NESTED, yyg);
yy_push_state(NESTED, yyg);
break;
case prime_regex:
yy_push_state(SREGEX, yyg);
break;
case prime_json:
yy_push_state(JSON, yyg);
break;
}
}
void scrub_scanner(scanner_t *yyg, int yy_char, wchar_t *lexeme)
{
struct yy_token *rtok = &yyextra->recent_tok;
if (rtok->yy_char == yy_char && rtok->yy_lval.lexeme == lexeme) {
rtok->yy_char = 0;
rtok->yy_lval.lexeme = 0;
}
}
void parser_l_init(void)
{
prot1(&form_to_ln_hash);
form_to_ln_hash = make_eq_hash(hash_weak_keys);
(void) &yy_fatal_error; /* suppress unused function warning */
}