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/*
* Copyright (c) 2002-2005 The TenDRA Project <http://www.tendra.org/>.
* 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.
* 3. Neither the name of The TenDRA Project nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific, prior written permission.
*
* 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 HOLDERS 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.
*
* $Id$
*/
/*
Crown Copyright (c) 1997
This TenDRA(r) Computer Program is subject to Copyright
owned by the United Kingdom Secretary of State for Defence
acting through the Defence Evaluation and Research Agency
(DERA). It is made available to Recipients with a
royalty-free licence for its use, reproduction, transfer
to other parties and amendment for any purpose not excluding
product development provided that any such use et cetera
shall be deemed to be acceptance of the following conditions:-
(1) Its Recipients shall ensure that this Notice is
reproduced upon any copies or amended versions of it;
(2) Any amended version of it shall be clearly marked to
show both the nature of and the organisation responsible
for the relevant amendment or amendments;
(3) Its onward transfer from a recipient to another
party shall be deemed to be that party's acceptance of
these conditions;
(4) DERA gives no warranty or assurance as to its
quality or suitability for any purpose and DERA accepts
no liability whatsoever in relation to any use to which
it may be put.
*/
#include "config.h"
#include "tdf.h"
#include "cmd_ops.h"
#include "spec_ops.h"
#include "error.h"
#include "input.h"
#include "lex.h"
#include "syntax.h"
#include "xalloc.h"
/*
INPUT FILE
This is the file from which the lexical routine read their input.
*/
static FILE *lex_input;
/*
PENDING BUFFER
Pending characters are dealt with by means of this buffer. pending
is set to the start of the buffer to indicate that there are no
characters pending, otherwise the pending characters are stored in
the buffer. The buffer may need increasing in size if the look-ahead
required by the lexical analyser increases.
*/
static int pending_buff[12] = { '?' };
static int *pending = pending_buff;
/*
MAPPINGS AND DECLARATIONS FOR AUTOMATICALLY GENERATED SECTION
These macros give the mappings between the actions used in the
automatically generated lexical analyser and the routines defined
in this file.
*/
static int read_char(void);
static int read_comment(void);
static int read_identifier(int);
static int read_number(int);
#define get_comment(A) read_comment()
#define get_identifier(A) read_identifier((A))
#define get_number(A) read_number((A))
#define unknown_token(A) lex_unknown
#define unread_char(A) *(++pending) = (A)
/*
AUTOMATICALLY GENERATED SECTION
The main body of the lexical analyser is automatically generated.
*/
#include "lexer.h"
/*
GET THE NEXT CHARACTER
This routine reads the next character, either from the pending buffer
or from the input file.
*/
static int
read_char(void)
{
int c;
if (pending != pending_buff) {
c = *(pending--);
} else {
c = fgetc(lex_input);
if (c == '\n') crt_line_no++;
if (c == EOF) return(LEX_EOF);
c &= 0xff;
}
return(c);
}
/*
TOKEN BUFFER
This buffer is used by read_token to hold the values of identifiers.
Similarly token_value is used to hold the values of numbers.
*/
char token_buff[2000];
static char *token_end = token_buff + sizeof(token_buff);
char *first_comment = NULL;
unsigned token_value = 0;
/*
READ AN IDENTIFIER
This routine reads an identifier beginning with a, returning the
corresponding lexical token. Keywords are dealt with locally.
*/
static int
read_identifier(int a)
{
int c = a, cl;
char *t = token_buff;
do {
*(t++) = (char)c;
if (t == token_end) error(ERROR_FATAL, "Buffer overflow");
c = read_char();
cl = lookup_char(c);
} while (is_alphanum(cl));
*t = 0;
unread_char(c);
/* Deal with keywords */
t = token_buff;
#define MAKE_KEYWORD(A, B)\
if (streq(t,(A))) return(B);
#include "keyword.h"
return(lex_name);
}
/*
READ A NUMBER
This routine reads a number. It is entered after the initial digit,
a, has been read. The number's value is stored in token_value.
*/
static int
read_number(int a)
{
int c = a, cl;
unsigned n = 0;
do {
unsigned m = 10 * n + (unsigned)(c - '0');
if (m < n) error(ERROR_SERIOUS, "Number overflow");
n = m;
c = read_char();
cl = lookup_char(c);
} while (is_digit(cl));
unread_char(c);
token_value = n;
return(lex_number);
}
/*
READ A COMMENT
This routine reads a shell style comment. It is entered after the
initial hash character has been read.
*/
static int
read_comment(void)
{
int c;
char *t = token_buff;
do {
*(t++) = ' ';
if (t == token_end) t = token_buff;
*(t++) = '*';
if (t == token_end) t = token_buff;
do {
c = read_char();
if (c == LEX_EOF) {
error(ERROR_SERIOUS, "End of file in comment");
return(lex_eof);
}
*(t++) = (char)c;
if (t == token_end) t = token_buff;
} while (c != '\n');
c = read_char();
} while (c == '#');
unread_char(c);
*t = 0;
if (first_comment == 0) first_comment = xstrcpy(token_buff);
return(read_token());
}
/*
GET A COMMAND FROM A STRING
This routine returns the address of the first non-white space character
from the string ps. It returns the null pointer if the end of the line
is reached.
*/
static char *
get_command(char **ps)
{
char *t = *ps;
char *s = t;
if (s) {
char c;
while (c = *s,(c == ' ' || c == '\t' || c == '\r')) {
*s = 0;
s++;
}
if (c == '#' || c == '\n' || c == 0) {
*s = 0;
*ps = NULL;
return(NULL);
}
t = s;
while (c = *s, !(c == ' ' || c == '\t' || c == '\r' ||
c == '\n' || c == 0)) {
s++;
}
*ps = s;
}
return(t);
}
/*
READ A TEMPLATE FILE
This routine reads a template file from the current input file.
*/
COMMAND
read_template(COMMAND p)
{
int go = 1;
char buff[1000];
FILE *f = lex_input;
int ln1 = crt_line_no;
LIST(COMMAND)q = NULL_list(COMMAND);
do {
COMMAND r = NULL_cmd;
int ln2 = crt_line_no;
char *s = fgets(buff, 1000, f);
if (s == NULL) {
/* End of file */
if (IS_cmd_cond(p)) {
error(ERROR_SERIOUS, "End of '@if' expected");
} else if (IS_cmd_loop(p)) {
error(ERROR_SERIOUS, "End of '@loop' expected");
}
break;
}
s = xstrcpy(s);
if (s[0] == '@') {
/* Complex command */
int complex = 1;
char *s1, *s2, *s3;
s++;
s1 = get_command(&s);
if (s1 == NULL) s1 = "<empty>";
s2 = get_command(&s);
s3 = get_command(&s);
if (streq(s1, "if")) {
if (s2 == NULL) {
error(ERROR_SERIOUS, "Incomplete '@%s' command", s1);
s2 = "true";
}
MAKE_cmd_cond(ln2, s2, NULL_cmd, NULL_cmd, r);
} else if (streq(s1, "else")) {
if (IS_cmd_cond(p)) {
COMMAND v = DEREF_cmd(cmd_cond_true_code(p));
if (!IS_NULL_cmd(v)) {
error(ERROR_SERIOUS, "Duplicate '@%s' command", s1);
}
q = REVERSE_list(q);
MAKE_cmd_compound(ln1, q, v);
COPY_cmd(cmd_cond_true_code(p), v);
q = NULL_list(COMMAND);
ln1 = ln2;
} else {
error(ERROR_SERIOUS, "Misplaced '@%s' command", s1);
}
s3 = s2;
} else if (streq(s1, "endif")) {
if (IS_cmd_cond(p)) {
go = 0;
} else {
error(ERROR_SERIOUS, "Misplaced '@%s' command", s1);
}
s3 = s2;
} else if (streq(s1, "loop")) {
if (s2 == NULL) {
error(ERROR_SERIOUS, "Incomplete '@%s' command", s1);
s2 = "false";
}
MAKE_cmd_loop(ln2, s2, NULL_cmd, r);
} else if (streq(s1, "end")) {
if (IS_cmd_loop(p)) {
go = 0;
} else {
error(ERROR_SERIOUS, "Misplaced '@%s' command", s1);
}
s3 = s2;
} else if (streq(s1, "use")) {
if (s2 == NULL) {
error(ERROR_SERIOUS, "Incomplete '@%s' command", s1);
s2 = "all";
}
MAKE_cmd_use(ln2, s2, s3, r);
if (s3) s3 = get_command(&s);
complex = 0;
} else if (streq(s1, "special")) {
if (s2 == NULL) {
error(ERROR_SERIOUS, "Incomplete '@%s' command", s1);
s2 = "<none>";
}
MAKE_cmd_special(ln2, s2, s3, r);
if (s3) s3 = get_command(&s);
complex = 0;
} else if (streq(s1, "comment")) {
s3 = NULL;
} else {
error(ERROR_SERIOUS, "Unknown command, '@%s'", s1);
s3 = NULL;
}
if (s3) {
error(ERROR_SERIOUS, "End of '@%s' expected", s1);
}
crt_line_no = ln2 + 1;
if (!IS_NULL_cmd(r)) {
/* Read body of command */
if (complex) {
COMMAND u = read_template(r);
if (IS_cmd_cond(r)) {
COMMAND v = DEREF_cmd(cmd_cond_true_code(r));
if (IS_NULL_cmd(v)) {
COPY_cmd(cmd_cond_true_code(r), u);
} else {
COPY_cmd(cmd_cond_false_code(r), u);
}
} else if (IS_cmd_loop(r)) {
COPY_cmd(cmd_loop_body(r), u);
}
}
CONS_cmd(r, q, q);
}
} else {
/* Simple command */
MAKE_cmd_simple(ln2, s, r);
CONS_cmd(r, q, q);
crt_line_no = ln2 + 1;
}
} while (go);
q = REVERSE_list(q);
MAKE_cmd_compound(ln1, q, p);
return(p);
}
/*
CURRENT TOKEN
These variables are used by the parser to hold the current and former
lexical tokens.
*/
int crt_lex_token;
int saved_lex_token;
/*
OPEN AN INPUT FILE
This routine opens the input file nm. It returns true if the file is
opened successfully.
*/
int
open_file(char *nm)
{
crt_line_no = 1;
if (nm == NULL || streq(nm, "-")) {
crt_file_name = "stdin";
lex_input = stdin;
} else {
crt_file_name = nm;
lex_input = fopen(nm, "r");
if (lex_input == NULL) {
error(ERROR_SERIOUS, "Can't open input file, '%s'", nm);
return(0);
}
}
return(1);
}
/*
CLOSE THE INPUT FILE
This routine closes the current input file.
*/
void
close_file(void)
{
FILE *f = lex_input;
if (f != stdin) fclose_v(f);
return;
}